Method of diagnosing neoplasms - ii

ABSTRACT

The present invention relates generally to nucleic acid molecules in respect of which changes to the DNA or to the RNA or protein expression profiles are indicative of the onset, predisposition to the onset and/or progression of a neoplasm. More particularly, the present invention is directed to nucleic acid molecules in respect of which changes to the DNA or to the RNA or protein expression profiles are indicative of the onset and/or progression of a large intestine neoplasm, such as a adenoma or an adeocarcinoma. The DNA or the expression profiles of the present invention are useful in a range of applications including, but not limited to, those relating to the diagnosis and/or monitoring of colorectal neoplasms, such as colorectal adenocarcinoma. Accordingly, in a related aspect the present invention is directed to a method of screening a subject for the onset, predisposition to the onset and/or progression of a neoplasm by screening for modulation in thin DNA or the RNA or protein expression profile of one or more nucleic acid molecule markers.

FIELD OF THE INVENTION

The present invention relates generally to nucleic acid molecules in respect of which changes to the DNA or to the RNA or protein expression profiles are indicative of the onset, predisposition to the onset and/or progression of a neoplasm. More particularly, the present invention is directed to nucleic acid molecules in respect of which changes to the DNA or to the RNA or protein expression profiles are indicative of the onset and/or progression of a large intestine neoplasm, such as an adenoma or an adenocarcinoma. The DNA or the expression profiles of the present invention are useful in a range of applications including, but not limited to, those relating to the diagnosis and/or monitoring of colorectal neoplasms, such as colorectal adenocarcinomas. Accordingly, in a related aspect the present invention is directed to a method of screening a subject for the onset, predisposition to the onset and/or progression of a neoplasm by screening for modulation in the DNA or the RNA or protein expression profile of one or more nucleic acid molecule markers.

BACKGROUND OF THE INVENTION

Bibliographic details of the publications referred to by author in this specification are collected alphabetically at the end of the description.

The reference in this specification to any prior publication (or information derived from it), or to any matter which is known, is not, and should not be taken as an acknowledgment or admission or any form of suggestion that that prior publication (or information derived from it) or known matter forms part of the common general knowledge in the field of endeavour to which this specification relates.

Adenomas are benign tumours, or neoplasms, of epithelial origin which are derived from glandular tissue or exhibit clearly defined glandular structures. Some adenomas show recognisable tissue elements, such as fibrous tissue (fibroadenomas) and epithelial structure, while others, such as bronchial adenomas, produce active compounds that might give rise to clinical syndromes.

Adenomas may progress to become an invasive neoplasm and are then termed adenocarcinomas. Accordingly, adenocarcinomas are defined as malignant epithelial tumours arising from glandular structures, which are constituent parts of many organs of the body. The term adenocarcinoma is also applied to tumours showing a glandular growth pattern. These tumours may be sub-classified according to the substances that they produce, for example mucus secreting and serous adenocarcinomas, or to the microscopic arrangement of their cells into patterns, for example papillary and follicular adenocarcinomas. These carcinomas may be solid or cystic (cystadenocarcinomas). Each organ may produce tumours showing a variety of histological types, for example the ovary may produce both mucinous and cystadenocarcinoma.

Adenomas in different organs behave differently. In general, the overall chance of carcinoma being present within an adenoma (i.e. a focus of cancer having developed within a benign lesion) is approximately 5%. However, this is related to size of an adenoma. For instance, in the large bowel (colon and rectum specifically) occurrence of a cancer within an adenonma is rare in adenomas of less than 1 centimeter. Such a development is estimated at 40 to 50% in adenomas which are greater than 4 centimeters and show certain histopathological change such as villous change, or high grade dysplasia. Adenomas with higher degrees of dysplasia have a higher incidence of carcinoma. In any given colorectal adenoma, the predictors of the presence of cancer now or the future occurrence of cancer in the organ include size (especially greater than 9 mm) degree of change from tubular to villous morphology, presence of high grade dysplasia and the morphological change described as “serrated adenoma”. In any given individual, the additional features of increasing age, familial occurrence of colorectal adenoma or cancer, male gender or multiplicity of adenomas, predict a future increased risk for cancer in the organ—so-called risk factors for cancer. Except for the presence of adenomas and its size, none of these is objectively defined and all those other than number and size are subject to observer error and to confusion as to precise definition of the feature in question. Because such factors can be difficult to assess and define, their value as predictors of current or future risk for cancer is imprecise.

Once a sporadic adenoma has developed, the chance of a new adenoma occurring is approximately 30% within 26 months.

Colorectal adenomas represent a class of adenomas which are exhibiting an increasing incidence, particularly in more affluent countries. The causes of adenoma, and of progression to adenocarcinoma, are still the subject of intensive research. To date it has been speculated that in addition to genetic predisposition, environmental factors (such as diet) play a role in the development of this condition. Most studies indicate that the relevant environmental factors relate to high dietary fat, low fibre, low vegetable intake, smoking, obesity, physical inactivity and high refined carbohydrates.

Colonic adenomas are localised areas of dysplastic epithelium which initially involve just one or several crypts and may not protrude from the surface, but with increased growth in size, usually resulting from an imbalance in proliferation and/or apoptosis, they may protrude. Adenomas can be classified in several ways. One is by their gross appearance and the major descriptors include degrees of protrusion: flat sessile (i.e. protruding but without a distinct stalk) or pedunculated (i.e. having a stalk). Other gross descriptors include actual size in the largest dimension and actual number in the colon/rectum. While small adenomas (less than say or 10 millimetres) exhibit a smooth tan surface, pedunculated and especially larger adenomas tend to have a cobblestone or lobulated red-brown surface. Larger sessile adenomas may exhibit a more delicate villous surface. Another set of descriptors include the histopathological classification; the prime descriptors of clinical value include degree of dysplasia (low or high), whether or not a focus of invasive cancer is present, degree of change from tubular gland formation to villous gland formation (hence classification is tubular, villous or tubulovillous), presence of admixed hyperplastic change and of so-called “serrated” adenomas and its subgroups. Adenomas can be situated at any site in the colon and/or rectum although they tend to be more common in the rectum and distal colon. All of these descriptors, with the exception of number and size, are relatively subjective and subject to interobserver disagreement.

The various descriptive features of adenomas are of value not just to ascertain the neoplastic status of any given adenomas when detected, but also to predict a person's future risk of developing colorectal adenomas or cancer. Those features of an adenoma or number of adenomas in an individual that point to an increased future risk for cancer or recurrence of new adenomas include: size of the largest adenoma (especially 10 mm or larger), degree of villous change (especially at least 25% such change and particularly 100% such change), high grade dysplasia, number (3 or more of any size or histological status) or presence of serrated adenoma features. None except size or number is objective and all are relatively subjective and subject to interobserver disagreement. These predictors of risk for future neoplasia (hence “risk”) are vital in practice because they are used to determine the rate and need for and frequency of future colonoscopic surveillance. More accurate risk classification might thus reduce workload of colonoscopy, make it more cost-effective and reduce the risk of complications from unnecessary procedures.

Adenomas are generally asymptomatic, therefore rendering difficult their diagnosis and treatment at a stage prior to when they might develop invasive characteristics and so became cancer. It is technically impossible to predict the presence or absence of carcinoma based on the gross appearance of adenomas, although larger adenomas are more likely to show a region of malignant change than are smaller adenomas. Sessile adenomas exhibit a higher incidence of malignancy than pedunculated adenomas of the same size. Some adenomas result in blood loss which might be observed or detectable in the stools; while sometimes visible by eye, it is often, when it occurs, microscopic or “occult”. Larger adenomas tend to bleed more than smaller adenomas. However, since blood in the stool, whether overt or occult, can also be indicative of non-adenonmatous conditions, the accurate diagnosis of adenoma is rendered difficult without the application of highly invasive procedures such as colonoscopy combined with tissue acquisition by either removal (i.e. polypectomy) or biopsy and subsequent histopathological analysis.

Accordingly, there is an on-going need to elucidate the causes of adenoma and to develop more informative diagnostic protocols or aids to diagnosis that enable one to direct colonoscopy at people more likely to have adenomas. These adenomas may be high risk, advanced or neither of these, in particular protocols which will enable the rapid, routine and accurate diagnosis of adenoma. Furthermore, it can be difficult after colonoscopy to be certain that all adenomas have been removed, especially in a person who has had multiple adenomas. An accurate screening test may minimise the need to undertake an early second colonoscopy to ensure that the colon has been cleared of neoplasms. Accordingly, the identification of molecular markers for adenomas would provide means for understanding the cause of adenomas and cancer, improving diagnosis of adenomas including development of useful screening tests, elucidating the histological stage of an adenoma, characterising a patient's future risk for colorectal neoplasia on the basis of the molecular state of an adenoma and facilitating treatment of adenomas.

To date, research has focused on the identification of gene mutations which lead to the development of colorectal neoplasms. In work leading up to the present invention, however, it has been determined that changes in the DNA or the RNA or protein expression profiles of genes which are also expressed in healthy individuals are indicative of the development of neoplasms of the large intestine, such as adenomas and adenocarcinomas. It has been further determined that in relation to neoplasms of the large intestine, diagnosis can be made based on screening for one or more of a panel of these differentially expressed genes. In a related aspect, it has still further been determined that to the extent that neoplastic tissue has been identified either by the method of the invention or by some other method, the present invention provides still further means of characterising that tissue as an adenoma or a cancer. In yet another aspect, it has been determined that a proportion of these genes are characterised by gene expression which occurs in the context of non-neoplastic tissue but not in the context of neoplastic tissue, thereby facilitating the development of qualitative analyses which do not require a relative analysis to be performed against a non-neoplastic or normal control reference level. Accordingly, the inventors have identified a panel of genes which facilitate the diagnosis of adenocarcinoma and adenoma development and/or the monitoring of conditions characterised by the development of these types of neoplasms.

SUMMARY OF THE INVENTION

Throughout this specification and the claims which follow, unless the context requires otherwise, the word “comprise”, and variations such as “comprises” and “comprising”, will be understood to imply the inclusion of a stated integer or step or group of integers or steps but not the exclusion of any other integer or step or group of integers or steps.

As used herein, the term “derived from” shall be taken to indicate that a particular integer or group of integers has originated from the species specified, but has not necessarily been obtained directly from the specified source. Further, as used herein the singular forms of “a”, “and” and “the” include plural referents unless the context clearly dictates otherwise.

Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

The subject specification contains amino acid and nucleotide sequence information prepared using the programme PatentIn Version 3.4, presented herein after the bibliography. Each amino acid and nucleotide sequence is identified in the sequence listing by the numeric indicator <210> followed by the sequence identifier (eg. <210>1, <210>2, etc). The length, type of sequence (amino acid, DNA, etc.) and source organism for each sequence is indicated by information provided in the numeric indicator fields <211>m<212> and <213>, respectively. Amino acid and nucleotide sequences referred to in the specification are identified by the indicator SEQ ID NO: followed by the sequence identifier (eg. SEQ ID NO: 1, SEQ ID NO: 2, etc). The sequence identifier referred to in the specification correlates to the information provided in numeric indicator field <400> in the sequence listing, which is followed by the sequence identifier (eg. <400>1, <400>2, etc). That is SEQ ID NO: 1 as detailed in the specification correlates to the sequence indicated as <400>1 in the sequence listing.

One aspect of the present invention is directed to a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200600_at 210133_at 227235_at 200621_at 210139_s_at 227265_at 200795_at 210298_x_at 227404_s_at 200799_at 210299_s_at 227529_s_at 200845_s_at 210302_s_at 227561_at 200859_x_at 210495_x_at 227623_at 200897_s_at 210517_s_at 227662_at 200974_at 210764_s_at 227705_at 200986_at 210809_s_at 227727_at 201041_s_at 210946_at 227826_s_at 201058_s_at 210982_s_at 227827_at 201061_s_at 211161_s_at 228202_at 201069_at 211548_s_at 228504_at 201105_at 211596_s_at 228507_at 201137_s_at 211643_x_at 228640_at 201141_at 211644_x_at 228706_s_at 201150_s_at 211645_x_at 228707_at 201289_at 211671_s_at 228750_at 201300_s_at 211696_x_at 228766_at 201324_at 211719_x_at 228846_at 201348_at 211798_x_at 228854_at 201426_s_at 211813_x_at 228885_at 201427_s_at 211848_s_at 229530_at 201438_at 211889_x_at 229839_at 201496_x_at 211896_s_at 230087_at 201497_x_at 211959_at 230264_s_at 201539_s_at 211964_at 230788_at 201540_at 211985_s_at 230830_at 201616_s_at 211990_at 231120_x_at 201617_x_at 211991_s_at 231579_s_at 201645_at 212077_at 231773_at 201667_at 212091_s_at 234764_x_at 201739_at 212097_at 234987_at 201743_at 212136_at 236300_at 201744_s_at 212158_at 236313_at 201842_s_at 212185_x_at 242317_at 201852_x_at 212192_at 200884_at 201858_s_at 212195_at 201495_x_at 201859_at 212230_at 202266_at 201865_x_at 212233_at 202350_s_at 201893_x_at 212265_at 202731_at 201920_at 212288_at 202741_at 201957_at 212386_at 202742_s_at 202007_at 212387_at 202768_at 202037_s_at 212397_at 202838_at 202069_s_at 212414_s_at 203058_s_at 202133_at 212419_at 203060_s_at 202222_s_at 212464_s_at 203240_at 202242_at 212667_at 203296_s_at 202274_at 212671_s_at 203343_at 202283_at 212713_at 203474_at 202291_s_at 212730_at 203638_s_at 202388_at 212764_at 203963_at 202555_s_at 212859_x_at 204018_x_at 202620_s_at 212956_at 204034_at 202686_s_at 213068_at 204036_at 202746_at 213071_at 204130_at 202760_s_at 213428_s_at 204388_s_at 202766_s_at 213509_x_at 204389_at 202888_s_at 213624_at 204508_s_at 202920_at 213746_s_at 204532_x_at 202953_at 213891_s_at 204607_at 202957_at 214027_x_at 204673_at 202992_at 214038_at 204818_at 202994_s_at 214091_s_at 204895_x_at 202995_s_at 214142_at 204897_at 203000_at 214414_x_at 205112_at 203001_s_at 214505_s_at 205259_at 203066_at 214677_x_at 205403_at 203131_at 214696_at 205480_s_at 203305_at 214752_x_at 205554_s_at 203382_s_at 214768_x_at 205593_s_at 203477_at 214777_at 205892_s_at 203645_s_at 215049_x_at 205929_at 203680_at 215076_s_at 206000_at 203729_at 215118_s_at 206094_x_at 203748_x_at 215176_x_at 206262_at 203766_s_at 215193_x_at 206377_at 203881_s_at 215382_x_at 206385_s_at 203908_at 215388_s_at 206664_at 203913_s_at 215657_at 207126_x_at 203914_x_at 216207_x_at 207245_at 203951_at 216401_x_at 207390_s_at 203980_at 216442_x_at 207392_x_at 204069_at 216474_x_at 207432_at 204083_s_at 216576_x_at 207761_s_at 204122_at 216834_at 208596_s_at 204135_at 216984_x_at 208920_at 204326_x_at 217148_x_at 209114_at 204438_at 217179_x_at 209374_s_at 204457_s_at 217235_x_at 209458_x_at 204570_at 217258_x_at 209791_at 204688_at 217378_x_at 210107_at 204697_s_at 217480_x_at 210524_x_at 204719_at 217546_at 210735_s_at 204745_x_at 217757_at 211372_s_at 204834_at 217762_s_at 211538_s_at 204894_s_at 217764_s_at 211549_s_at 204931_at 217767_at 211637_x_at 204938_s_at 217897_at 211699_x_at 204939_s_at 217967_s_at 211745_x_at 204940_at 218087_s_at 212224_at 204955_at 218162_at 212592_at 205097_at 218224_at 212741_at 205200_at 218312_s_at 212814_at 205267_at 218353_at 213317_at 205382_s_at 218418_s_at 213451_x_at 205412_at 218468_s_at 213629_x_at 205433_at 218469_at 213921_at 205464_at 218559_s_at 213953_at 205547_s_at 218756_s_at 214164_x_at 205683_x_at 219014_at 214433_s_at 205935_at 219087_at 214598_at 205950_s_at 219508_at 214916_x_at 206134_at 219607_s_at 215125_s_at 206143_at 219669_at 215299_x_at 206149_at 219799_s_at 215867_x_at 206198_s_at 220026_at 216336_x_at 206199_at 220037_s_at 216491_x_at 206208_at 220376_at 216510_x_at 206209_s_at 220834_at 217022_s_at 206422_at 221541_at 217109_at 206461_x_at 221667_s_at 217110_s_at 206561_s_at 221747_at 217165_x_at 206576_s_at 221748_s_at 217232_x_at 206637_at 222043_at 217414_x_at 206641_at 222162_s_at 218541_s_at 206710_s_at 222453_at 218546_at 206784_at 222513_s_at 219059_s_at 207003_at 222717_at 219543_at 207080_s_at 222722_at 219796_s_at 207134_x_at 223121_s_at 219948_x_at 207266_x_at 223122_s_at 220075_s_at 207502_at 223235_s_at 220266_s_at 207961_x_at 223343_at 220468_at 207977_s_at 223395_at 220645_at 207980_s_at 223551_at 220812_s_at 208131_s_at 223623_at 221004_s_at 208370_s_at 223952_x_at 221305_s_at 208383_s_at 224009_x_at 221584_s_at 208399_s_at 224352_s_at 221841_s_at 208450_at 224412_s_at 221896_s_at 208581_x_at 224480_s_at 223484_at 208747_s_at 224560_at 223597_at 208763_s_at 224663_s_at 223754_at 208788_at 224694_at 224342_x_at 208789_at 224823_at 224989_at 208791_at 224836_at 224990_at 208792_s_at 224840_at 225458_at 208894_at 224959_at 225728_at 209047_at 224963_at 226147_s_at 209074_s_at 224964_s_at 226302_at 209101_at 225207_at 226594_at 209116_x_at 225242_s_at 226654_at 209138_x_at 225269_s_at 226811_at 209147_s_at 225275_at 227052_at 209156_s_at 225353_s_at 227522_at 209167_at 225381_at 227682_at 209170_s_at 225442_at 227725_at 209191_at 225575_at 227735_s_at 209209_s_at 225602_at 227736_at 209210_s_at 225604_s_at 228133_s_at 209283_at 225626_at 228195_at 209301_at 225688_s_at 228232_s_at 209312_x_at 225710_at 228241_at 209335_at 225720_at 228469_at 209357_at 225721_at 228961_at 209373_at 225782_at 229070_at 209436_at 225894_at 229254_at 209457_at 225895_at 229659_s_at 209496_at 226001_at 229831_at 209498_at 226051_at 230595_at 209612_s_at 226084_at 231925_at 209613_s_at 226103_at 231975_s_at 209621_s_at 226303_at 233565_s_at 209651_at 226304_at 235146_at 209656_s_at 226333_at 235766_x_at 209667_at 226430_at 235849_at 209668_x_at 226492_at 238143_at 209687_at 226682_at 238750_at 209735_at 226694_at 238751_at 209763_at 226818_at 239272_at 209868_s_at 226834_at 241994_at 209948_at 226841_at 242447_at 210084_x_at 227006_at 242601_at 227099_s_at 227061_at 243278_at; and/or (ii) CLCA4 SGK MT1X ZG16 CFL2 AOC3 CA2 C1S PPAP2A CA1 SELENBP1 ZSCAN18 MS4A12 MT1E IVD AQP8 ADAMTS1 SFRP1 SLC4A4 ITM2A COL4A2 CEACAM7 POU2AF1 GPM6B TAGLN FAM55D EPB41L3 GUCA1B C6orf204 MAOA GCG AKAP12 DMD ADH1B TUBB6 MSRB3 UGT2B17 LGALS2 PLOD2 ADAMDEC1 KIAA0828 C9orf19 MT1M MGC14376 MIER3 AKR1B10 PPP1R14A XDH FN1 MUC4 CLDN23 MGP PKIB SGCE CXCL12 PIGR FOXF2 PDK4 ASPN AGR3 CA4 A2M IGLJ3 PYY LOC25845 QKI IGHA1 LGALS1 LOC399959 TPM2 BCHE ANKRD25 C6orf105 ST6GALNAC1 CRISPLD2 HPGD GJA1 ANK2 ADH1C SCNN1B LOC283666 CLCA1 FABP4 CRYAB FABP1 F13A1 ACAT1 ENAM CD36 IGL@ CFD SPARCL1 PBLD GUCA2B ZCWPW2 CCL8 FBLN1 TNC LIFR LOC63928 MT1A HLA-DRB1 ABCA8 LOC652745 UGP2 POSTN MALL IGKV1D-13 DCN GNG2 AP1S2 ITLN1 DNASE1L3 EMP3 COL6A2 EGR1 MMP28 FCGBP CMBL UGT2A3 SLC26A2 GCNT3 RGS5 PGM5 SERPING1 PTGIS DMN MEIS1 DUSP5 GPNMB EDN3 MFAP4 IGFBP5 MSN UGT1A6 CLEC3B MT1G PRKAR2B LOC253012 TPSAB1 HHLA2 DPT GPX3 LOC652128 PCK1 CDKN2B C3 CNN1 FOSB ATP2B4 HSD17B2 HSPA1A HBA1 PLAC8 CYBRD1 TCF21 TMEM47 PTGER4 PPID OGN MAG1 PPAP2B CALD1 BEST2 SPON1 ACTG2 HLA-DQA1 PHLDB2 MGC4172 PRIMA1 RARRES2 MAB21L2 MT1F ETHE1 RPL24 MAFB MMP2 ABCG2 FAM107A SRI CCDC80 PRKACB CNTN3 UGT1A1 SELM RGS2 MRC1 TYROBP COL6A1 HSD11B2 TNS1 FBN1 ANPEP MYH11 MXD1 MATN2 ITM2C PLCE1 PRNP CES2 KCNMB1 ABI3BP MS4A4A CALM1 HLA-C PDGFRA HLA-DPB1 NDE1 CA12 SMOC2 SRPX FKBP5 LOC285382 WWTR1 HSPB8 CLIC5 HMGCS2 TPSB2 APOE LOC646627 FGL2 SERPINF1 KRT20 C1QB PPP1R12B KLF4 ANGPTL1 HSPB6 FHL1 MEP1A FNBP1 ARL14 GUCY1A3 C4orf34 LUM UGDH SORBS2 SORBS1 DUSP1 GPA33 METTL7A C2orf40 GALNAC4S-6ST FAM129A PLN CFHR1 SCARA5 UGT2B15 MGC13057 SI PDLIM3 C10orf56 ACTA2 TP53INP2 SULT1A1 CD177 ATP8B1 TTRAP C10orf99 ANK3 CCL28 COL15A1 CTGF IDH3A NR3C2 MUCDHL EDG2 DHRS9 SDPR UGT1A8 LMOD1 COL14A1 RAB27A EFEMP1 DSCR1 ANTXR1 GREM1 CITED2 EMP1 IL1R2 MT1H CSRP1 LOC387763 NEXN PLEKHC1 TIMP3 MUC2 LOC572558 MYLK NID1 FOXP2 CLDN8 HBB HSPA2 RDX GCNT2 ATP1A2 TSPAN7 C20orf118 TNXB TNFRSF17 SLC20A1 FUCA1 SYNPO2 CD14 MRGPRF VIM KCTD12 HIGD1A SMPDL3A RBMS1 MFSD4 P2RY14 PTRF AXL CHGA TSPAN1 AQP1 C15orf48 UGT1A9 MAP1B COL3A1 COX7A1 PALLD CYR61 MUC12 MPEG1 TRPM6 PDCD4 KLHL5 OSTbeta CAV1 TCEAL7 IGLV1-44 FAM46C FILIP1L VSIG2 LRIG1 IQGAP2 IGHM HLA-DPA1 PRDX6 LRRC19 C1orf115 RAB31 CD163 HBA2 LOC96610 CEACAM1 EDIL3 FGFR2 TIMP2 DES PAPSS2 ENTPD5 MT2A XLKD1 DDR2 KCNMA1 SMTN CHRDL1 GAS1 C8orf4 SRGN TBC1D9 SDCBP2 PDE9A C7 CCL11 PMP22 P2RY1 ELOVL5 FLNA NR3C1 FOXF1 STMN2 STOM RELL1 MYL9 CKB PNMA1 SEMA6D CLU LOC339562 PADI2 SLC26A3 PALM2-AKAP2 SEPPI SDC2 PAG1 TGFB1I1 SST HCLS1 SFRP2 HLA-DRA RGS1 UGT1A3 TSC22D3 FXYD6 MS4A7 IL6ST OLFML3 ALDH1A1 C1QC COL6A3 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

Another aspect of the present invention provides a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 220026 at; and/or     -   (ii) CLCA4

in a biological sample from said individual wherein a lower level of expression of the gene or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In yet another aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 214142 at; and/or     -   (11) ZG16

in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In still another aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 209301_at 205950_s_at; and/or     -   (ii) CA2 CA1

in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In still yet another aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 220834 at; and/or     -   (ii) MS4A12

in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In yet still another aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 206784 at; and/or     -   (ii) AQP8

in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In a further aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   the gene, genes or transcripts detected by Affymetrix probeset         IDs: 203908_at, 206198_s_at, 205547_s_at, 207003_at, 206422_at,         209613_s_at, 207245_at; and/or     -   (ii) SLC4A4, CEACAM7, TAGLN, GUCA1B, GCG, ADH1B, UGT2B17,

in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In another further aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   the gene, genes or transcripts detected by Affymetrix probeset         IDs: 203908_at, 206198_s_at, 205547_s_at, 207003_at, 206422_at,         209613_s_at, 207245_at; and/or     -   (ii) SLC4A4, CEACAM7, TAGLN, GUCA1B, GCG, ADH1B, UGT2B17,

in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In still another further aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 225207_at 211548_s_at 205382_s_at 206208_at 206262_at 207502_at 207080_s_at 210107_at 202995_s_at 215118_s_at 205892_s_at 206149_at 204083_s_at 212592_at 204719_at 229070_at; and/or (ii) PDK4 HPGD CFD CA4 ADH1C GUCA2B PYY CLCA1 FBLN1 IGHA1 FABP1 LOC63928 TPM2 ENAM ABCA8 C6orf105 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In yet still yet another further aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 210809_s_at 201617_x_at 202133_at 201893_x_at 202274_at 204607_at 223597_at 218756_s_at 238143_at 209156_s_at 210302_s_at 213953_at 203240_at 228885_at 220266_s_at 224963_at 209735_at 210299_s_at 226303_at 228504_at 220468_at 212730_at 225242_s_at 201744_s_at 201141_at 215125_s_at 218087_s_at 211959_at 204438_at 207761_s_at 205200_at 204130_at 217967_s_at 242601_at 202888_s_at 229839_at 213068_at 202350_s_at 206664_at 208383_s_at 201300_s_at 200974_at 203951_at 223395_at 219669_at 204818_at 214768_x_at 227736_at 219014_at 228133_s_at 203477_at 209656_s_at 204955_at 205259_at 222722_at; and/or (ii) POSTN OGN WWTR1 DCN CALD1 HMGCS2 ITLN1 ACTG2 LOC646627 COL6A2 MGC4172 KRT20 FCGBP MAB21L2 KLF4 SLC26A2 RPL24 FHL1 PGM5 ABCG2 ARL14 DMN CCDC80 LUM GPNMB UGT1A1 SORBS1 IGFBP5 MRC1 METTL7A CLEC3B HSD11B2 FAM129A LOC253012 ANPEP SCARA5 DPT MATN2 SI PCK1 PRNP ACTA2 CNN1 ABI3BP CD177 HSD17B2 HLA-C C10orf99 PLAC8 NDE1 COL15A1 TMEM47 SRPX NR3C2 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In a related aspect the present invention is directed to a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200600_at 208788_at 215382_x_at 200665_s_at 208789_at 215388_s_at 200799_at 208894_at 216442_x_at 200845_s_at 209047_at 216474_x_at 200859_x_at 209101_at 216834_at 200897_s_at 209138_x_at 217480_x_at 200974_at 209147_s_at 217757_at 200986_at 209156_s_at 217762_s_at 201041_s_at 209191_at 217764_s_at 201061_s_at 209209_s_at 217767_at 201069_at 209210_s_at 217897_at 201105_at 209312_x_at 218162_at 201137_s_at 209335_at 218224_at 201141_at 209436_at 218312_s_at 201150_s_at 209457_at 218353_at 201289_at 209496_at 218418_s_at 201300_s_at 209621_s_at 218468_s_at 201426_s_at 209651_at 218469_at 201438_at 209656_s_at 218559_s_at 201616_s_at 209868_s_at 219087_at 201617_x_at 210084_x_at 219607_s_at 201645_at 210133_at 221541_at 201667_at 210139_s_at 222043_at 201743_at 210495_x_at 222453_at 201744_s_at 210517_s_at 222513_s_at 201842_s_at 210764_s_at 223121_s_at 201852_x_at 210809_s_at 223122_s_at 201858_s_at 210982_s_at 223235_s_at 201859_at 211161_s_at 223343_at 201865_x_at 211596_s_at 224560_at 201893_x_at 211671_s_at 224694_at 201920_at 211719_x_at 224840_at 202007_at 211813_x_at 224964_s_at 202069_s_at 211896_s_at 225242_s_at 202133_at 211959_at 225269_s_at 202283_at 211964_at 225353_s_at 202291_s_at 211985_s_at 225381_at 202403_s_at 211990_at 225442_at 202620_s_at 211991_s_at 225602_at 202686_s_at 212077_at 225604_s_at 202760_s_at 212091_s_at 225626_at 202766_s_at 212136_at 225688_s_at 202953_at 212158_at 225710_at 202957_at 212185_x_at 226001_at 202994_s_at 212195_at 226051_at 202995_s_at 212230_at 226084_at 203066_at 212233_at 226103_at 203131_at 212265_at 226430_at 203305_at 212386_at 226682_at 203382_s_at 212387_at 226694_at 203477_at 212397_at 226818_at 203645_s_at 212414_s_at 226834_at 203680_at 212419_at 226841_at 203729_at 212464_s_at 227061_at 203748_x_at 212667_at 227099_s_at 204069_at 212671_s_at 227235_at 204122_at 212713_at 227404_s_at 204135_at 212764_at 227529_s_at 204438_at 212956_at 227561_at 204457_s_at 213428_s_at 227623_at 204570_at 213509_x_at 227705_at 204688_at 213746_s_at 227727_at 205412_at 213891_s_at 228507_at 205683_x_at 214038_at 228750_at 205935_at 214677_x_at 228846_at 207134_x_at 214752_x_at 229530_at 207266_x_at 215049_x_at 230264_s_at 208131_s_at 215076_s_at 231579_s_at 208370_s_at 215193_x_at 234987_at; and/or 208747_s_at (ii) A2M FBN1 PALLD ACAT1 FILIP1L PALM2-AKAP2 ACTA2 FKBP5 PDGFRA AKAP12 FLNA PDLIM3 ANKRD25 FN1 PHLDB2 ANTXR1 FOXF1 PLEKHC1 AP1S2 FXYD6 PLOD2 APOE GALNAC4S-6ST PMP22 AQP1 GAS1 PNMA1 ASPN GJA1 POSTN ATP2B4 GNG2 PPAP2A AXL GPNMB PPAP2B C10orf56 GREM1 PRDX6 C1QB GUCY1A3 PRKAR2B C1QC HCLS1 PRNP C1S HLA-DPA1 PTGIS C20orf118 HLA-DPB1 PTRF C3 HLA-DQA1 QKI C9orf19 HLA-DRA RAB31 CALD1 HLA-DRB1 RARRES2 CALM1 HSPA1A RBMS1 CCDC80 IDH3A RDX CCL11 IGFBP5 RELL1 CCL8 IGL@ RGS1 CD14 IGLJ3 RGS5 CD163 IL6ST SDC2 CES2 KLHL5 SELM CFHR1 LGALS1 SEPT6 CLU LOC283666 SERPINF1 COL14A1 LOC339562 SERPING1 COL15A1 LOC387763 SFRP2 COL1A2 LOC399959 SGCE COL3A1 LRIG1 SLC20A1 COL4A2 LUM SMOC2 COL6A1 MAFB SORBS1 COL6A2 MAP1B SPARC COL6A3 MEIS1 SPON1 COX7A1 MFAP4 SRGN CRISPLD2 MGP STOM CTGF MMP2 TBC1D9 CYBRD1 MPEG1 TCEAL7 CYR61 MRC1 TGFB1I1 DCN MRGPRF TIMP2 DDR2 MS4A4A TIMP3 DSCR1 MS4A7 TMEM47 DUSP1 MSN TNC DUSP5 MT2A TPSAB1 EFEMP1 MXD1 TPSB2 EGR1 NEXN TUBB6 ELOVL5 NID1 TYROBP EMP3 NR3C1 VIM F13A1 OLFML3 WWTR1 FBLN1 PAG1 ZSCAN18 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of an adenoma cell or a cell predisposed to the onset of an adenoma state.

In another aspect of the present invention there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene or genes detected by Affymetrix probeset IDs: (i) 200884_at 208596_s_at 220812_s_at 201495_x_at 208920_at 221004_s_at 202266_at 209114_at 221305_s_at 202350_s_at 209374_s_at 221584_s_at 202731_at 209458_x_at 221841_s_at 202741_at 209791_at 221896_s_at 202742_s_at 210107_at 223484_at 202768_at 210524_x_at 223597_at 202838_at 210735_s_at 223754_at 203058_s_at 211372_s_at 224342_x_at 203060_s_at 211538_s_at 224989_at 203240_at 211549_s_at 224990_at 203296_s_at 211637_x_at 225458_at 203343_at 211699_x_at 225728_at 203474_at 211745_x_at 226147_s_at 203638_s_at 212224_at 226302_at 203963_at 212592_at 226594_at 204018_x_at 212741_at 226654_at 204034_at 212814_at 226811_at 204036_at 213317_at 227052_at 204130_at 213451_x_at 227522_at 204388_s_at 213629_x_at 227682_at 204389_at 213921_at 227725_at 204508_s_at 213953_at 227735_s_at 204532_x_at 214164_x_at 227736_at 204607_at 214433_s_at 228133_s_at 204673_at 214598_at 228195_at 204818_at 214916_x_at 228232_s_at 204895_x_at 215125_s_at 228241_at 204897_at 215299_x_at 228469_at 205112_at 215867_x_at 228961_at 205259_at 216336_x_at 229070_at 205403_at 216491_x_at 229254_at 205480_s_at 216510_x_at 229659_s_at 205554_s_at 217022_s_at 229831_at 205593_s_at 217109_at 230595_at 205892_s_at 217110_s_at 231925_at 205929_at 217165_x_at 231975_s_at 206000_at 217232_x_at 233565_s_at 206094_x_at 217414_x_at 235146_at 206262_at 218541_s_at 235766_x_at 206377_at 218546_at 235849_at 206385_s_at 219059_s_at 238143_at 206664_at 219543_at 238750_at 207126_x_at 219796_s_at 238751_at 207245_at 219948_x_at 239272_at 207390_s_at 220075_s_at 241994_at 207392_x_at 220266_s_at 242447_at 207432_at 220468_at 242601_at 207761_s_at 220645_at 243278_at; and/or (ii) ADH1C HIGD1A NR3C2 AGR3 HMGCS2 P2RY1 ALDH1A1 HPGD PADI2 ANK3 HSD11B2 PAPSS2 ARL14 HSD17B2 PBLD ATP1A2 HSPA2 PDCD4 ATP8B1 IGHA1 PDE9A BEST2 IGHM PIGR C10orf99 IL1R2 PLCE1 C15orf48 IL8 PPID C1orf115 IQGAP2 PRKACB C4orf34 ITLN1 PTGER4 C6orf105 ITM2C RAB27A C8orf4 KCNMA1 SCARA5 CA12 KIAA0828 SDCBP2 CCL28 KLF4 SELENBP1 CKB KRT20 SI CLCA1 LOC253012 SMTN CLDN8 LOC25845 SORBS2 CLIC5 LOC285382 SRI CMBL LOC572558 SST CNTN3 LOC646627 ST6GALNAC1 DNASE1L3 LOC652128 SULT1A1 EDG2 LOC96610 TNXB ENAM MAOA TSPAN1 ENTPD5 MATN2 TTRAP ETHE1 MEP1A UGDH FABP1 METTL7A UGP2 FAM46C MFSD4 UGT1A1 FAM55D MGC13057 UGT1A3 FCGBP MIER3 UGT1A6 FGFR2 MMP28 UGT1A8 FOSB MT1A UGT1A9 FOXF2 MT1F UGT2A3 FOXP2 MT1M UGT2B15 FUCA1 MUC12 UGT2B17 GPA33 MUC2 VSIG2 HBA1 MUC4 XDH HBA2 MUCDHL XLKD1 HBB MYH11 ZCWPW2 HHLA2 NDE1

in a biological simple from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a cancer cell or cell predisposed to the onset of a cancerous state.

In still another aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 202920_at 222717_at 231120_x_at 203881_s_at 224412_s_at 231773_at 204719_at 225381_at 203296_s_at 204931_at 225575_at 206664_at 204940_at 227529_s_at 211549_s_at 205433_at 227623_at 214598_at 206637_at 227705_at 219948_x_at 207080_s_at 227827_at 220812_s_at 207980_s_at 228504_at 221305_s_at 209170_s_at 228706_s_at 229831_at 209209_s_at 228766_at 231925_at 209613_s_at 228854_at 235146_at 220037_s_at 228885_at 238751_at 220376_at 230788_at 243278_at; and/or (ii) ADH1B ANGPTL1 HHLA2 SORBS2 DMD SORBS2 PYY GCNT2 CLDN23 ABCA8 SDPR CNTN3 RPL24 PKIB PLEKHC1 SI CITED2 LRRC19 CLDN8 TCF21 LIFR P2RY14 P2RY1 ATP1A2 PLN ANK2 HPGD TRPM6 XLKD1 GPM6B CD36 LOC399959 UGT1A8 BCHE AKAP12 FOXP2 TCEAL7 UGT2A3 in a biological sample from said individual wherein a level of expression of the genes or transcripts of group (i) and/or group (ii) which is not substantially above background levels is indicative of a neoplastic cell or a cell predisposed to the onset of a neoplastic state.

In a further aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 209209_s_at, 225381_at, 227529 s_at, 227623_at,         227705_at; and/or     -   (ii) AKAP12, LOC399959, PLEKHC1, TCEAL7,         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) which is not substantially above background         levels is indicative of an adenoma cell or a cell predisposed to         the onset of an adenoma state.

In yet still another further aspect there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 203296_s_at 219948_x_at 231925_at 206664_at 220812_s_at 235146_at 211549_s_at 221305_s_at 238751_at 214598_at 229831_at 243278_at; and/or (ii) ATP1A2 HHLA2 SORBS2 CLDN8 HPGD UGT1A8 CNTN3 P2RY1 UGT2A3 FOXP2 SI in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) which is not substantially above background levels is indicative of a cancer cell or a cell predisposed to the onset of a cancerous state.

In another further aspect there is provided a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200600_at 204006_s_at 213428_s_at 200665_s_at 204051_s_at 213524_s_at 200832_s_at 204122_at 213869_x_at 200974_at 204320_at 213905_x_at 200986_at 204475_at 214247_s_at 201058_s_at 204620_s_at 215049_x_at 201069_at 205479_s_at 215076_s_at 201105_at 205547_s_at 215646_s_at 201141_at 205828_at 216442_x_at 201147_s_at 207173_x_at 217430_x_at 201150_s_at 207191_s_at 217762_s_at 201162_at 208747_s_at 217763_s_at 201163_s_at 208782_at 217764_s_at 201185_at 208788_at 218468_s_at 201261_x_at 208850_s_at 218469_at 201289_at 208851_s_at 218559_s_at 201426_sat 209101_at 218638_s_at 201438_at 209156_s_at 219087_at 201616_s_at 209218_at 221011_s_at 201645_at 209395_at 221729_at 201667_at 209396_s_at 221730_at 201744_s_at 209596_at 221731_x_at 201792_at 209875_s_at 37892_at 201842_s_at 209955_s_at 223122_s_at 201852_x_at 210095_s_at 223235_s_at 201859_at 210495_x_at 224560_at 201893_x_at 210511_s_at 224694_at 202237_at 210764_s_at 224724_at 202238_s_at 210809_s_at 225664_at 202283_at 211161_s_at 225681_at 202291_s_at 211571_s_at 225710_at 202310_s_at 211719_x_at 225799_at 202311_s_at 211813_x_at 226237_at 202403_s_at 211896_s_at 226311_at 202404_s_at 211959_at 226694_at 202450_s_at 211964_at 226777_at 202620_s_at 211966_at 226930_at 202766_s_at 211980_at 227099_s_at 202859_x_at 211981_at 227140_at 202878_s_at 212077_at 227566_at 202917_s_at 212344_at 229218_at 202998_s_at 212353_at 229802_at 203083_at 212354_at 231579_s_at 203325_s_at 212464_s_at 231766_s_at 203382_s_at 212488_at 231879_at 203477_at 212489_at 232458_at 203570_at 212667_at 233555_s_at 203645_s_at 213125_at 234994_at; and/or 203878_s_at (ii) COL1A2 LGALS1 SRGN CTHRC1 ELOVL5 LBH FN1 MGP CTGF POSTN MMP2 TNC SPP1 LOXL2 G0S2 MMP1 MYL9 SQLE SPARC DCN EFEMP1 LUM CALD1 APOE GREM1 FBN1 MSN IL8 MMP3 IGFBP3 IGFBP5 IGFBP7 SERPINF1 SFRP2 FSTL1 ISLR SULF1 COL4A2 HNT ASPN VCAN COL5A1 COL6A3 SMOC2 OLFML2B COL8A1 HTRA1 KIAA1913 COL12A1 CYR61 PALM2-AKAP2 COL5A2 FAP SERPING1 CDH11 VIM TYROBP THBS2 TIMP2 ACTA2 COL15A1 SCD COL3A1 COL11A1 TIMP3 PLOD2 S100A8 AEBP1 MMP11 FNDC1 GJA1 CD163 SFRP4 NNMT FCGR3B INHBA COL1A1 PLAU COL6A2 SULF2 MAFB ANTXR1 COL6A1 LOC541471 GPNMB SPON2 LOC387763 BGN CTSK CHI3L1 TAGLN MXRA5 THY1 COL4A1 C1S LOXL1 RAB31 DKK3 CD93 in said cell or cellular population wherein a lower level of expression of the genes of group (i) and/or group (ii) relative to a gastrointestinal cancer control level is indicative of an adenoma cell or a cell predisposed to the onset of an adenoma state.

In still another aspect there is provided a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200884_at 214234_s_at 226248_s_at 203240_at 214235_at 226302_at 203963_at 214433_s_at 227676_at 204508_s_at 215125_s_at 227719_at 204607_at 215867_x_at 227725_at 204811_s_at 217109_at 228232_s_at 204895_x_at 217110_s_at 229070_at 204897_at 218211_s_at 231832_at 205259_at 219543_at 232176_at 205765_at 219955_at 232481_s_at 205927_s_at 221841_s_at 235976_at 208063_s_at 221874_at 236894_at 208937_s_at 223969_s_at 237521_x_at 210107_at 223970_at 242601_at; and/or 213106_at (ii) CLCA1 CTSE ATP8B1 FCGBP C6orf105 CACNA2D2 HMGCS2 CKB KLF4 RETNLB ATP8A1 CYP3A5P2 L1TD1 MUC4 CAPN9 SLITRK6 UGT1A1 NR3C2 VSIG2 SELENBP1 PBLD LOC253012 PTGER4 CA12 ST6GALNAC1 MLPH WDR51B ID1 KIAA1324 FAM3D CYP3A5 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to a gastrointestinal adenoma control level is indicative of a cancer or a cell predisposed to the onset of a cancerous state.

In yet another aspect there is provided a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene or genes detected by Affymetrix probeset IDs:         202404_s_at, 212464_s_at, 210809_s_at, 225681_at; and/or     -   (ii) COL1 A2, FN1, POSTN, CTHRC1         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) relative to a gastrointestinal cancer control         level is indicative of an adenoma cell or a cell predisposed to         the onset of an adenoma state.

In yet still another aspect, there is provided a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 209875_s_at 227140_at 204475_at; and/or (ii) SPP1 MMP1 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to a gastrointestinal cancer control level is indicative of an adenoma cell or a cell predisposed to the onset of an adenoma state.

In still yet another aspect the present invention is directed to a method of characterising a cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200665_s_at 226237_at 226930_at 201744_s_at 225664_at 204051_s_at 218468_s_at 221730_at 210511_s_at 202859_x_at 207173_x_at 209156_s_at 211959_at 203083_at 224694_at 223122_s_at 203477_at 201141_at 212353_at 37892_at 213905_x_at 219087_at 202917_s_at 205547_s_at 201438_at; and/or (ii) SPARC COL8A1 SFRP4 LUM COL12A1 INHBA GREM1 COL5A2 COL6A2 IL8 CDH11 ANTXR1 IGFBP5 THBS2 GPNMB SFRP2 COL15A1 BGN SULF1 COL11A1 TAGLN ASPN S100A8 COL6A3 FNDC1 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or (ii) relative to a gastrointestinal cancer control level is indicative of an adenoma or a cell predisposed to the onset of an adenoma state.

In yet another aspect the present invention is directed to a method of characterising a cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 210107_at; and/or     -   (ii) CLCA1

in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or (ii) relative to a gastrointestinal adenoma control level is indicative of a cancer or a cell predisposed to the onset of a cancerous state.

In still yet another aspect the present invention is directed to a method of characterising a cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 203240_at 219955_at 242601_at 204607_at 232481_s_at 227725_at 223969_s_at 228232_s_at; and/or (ii) FCGBP L1TD1 LOC253012 HMGCS2 SLITRK6 ST6GALNAC1 RETNLB VSIG2 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or (ii) relative to a gastrointestinal adenoma control level is indicative of a cancer or a cell predisposed to the onset of a cancerous state.

A further aspect of the present invention provides a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene or genes detected by Affymetrix probeset IDs: (i) 235976_at 236894_at 237521; and/or (ii) SLITRK6 L1TD1 in a biological sample from said individual wherein expression of the genes or transcripts of group (i) and/or (ii) at a level which is not substantially greater than background neoplastic tissue levels is indicative of a cancer or a cell predisposed to the onset of a cancerous state.

A related aspect of the present invention provides a molecular array, which array comprises a plurality of;

-   -   (i) nucleic acid molecules comprising a nucleotide sequence         corresponding to any one or more of the neoplastic marker genes         hereinbefore described or a sequence exhibiting at least 80%         identity thereto or a functional derivative, fragment, variant         or homologue of said nucleic acid molecule; or     -   (ii) nucleic acid molecules comprising a nucleotide sequence         capable of hybridising to any one or more of the sequences         of (i) under medium stringency conditions or a functional         derivative, fragment, variant or homologue of said nucleic acid         molecule; or     -   (iii) nucleic acid probes or oligonucleotides comprising a         nucleotide sequence capable of hybridising to any one or more of         the sequences of (i) under medium stringency conditions or a         functional derivative, fragment, variant or homologue of said         nucleic acid molecule; or     -   (iv) probes capable of binding to any one or more of the         proteins encoded by the nucleic acid molecules of (i) or a         derivative, fragment or, homologue thereof

wherein the level of expression of said marker genes of (i) or proteins of (iv) is indicative of the neoplastic state of a cell or cellular subpopulation derived from the large intestine.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a graphical representation of alcohol dehydrogenase IB (class I), beta polypeptide.

FIG. 2 is a graphical representation of the methylation of MAMDC2 and GPM6B in normal and neoplastic tissues and cell lines. Panel A shows the methylation level of the MAMDC2 gene as assessed by methylation specific PCR, using amplification of the CAGE gene to normalise for input DNA levels. Each point represents an individual tissue sample or cell line. Samples included DNAs from 18 colorectal cancer tissues, 12 colorectal adenomas, 22 matched normal colorectal tissues, 6 other normal tissues and a cell line and 6 colon cancer cell lines. Panel B shows the relative level of methylation of the GPM6B gene assessed by a COBRA assay. Levels of methylation were scored between 0 (no restriction enzyme digestion) and 5 (complete restriction enzyme digestion). Each point represents a single tissue sample. Samples included 14 colorectal cancer tissues, 11 colorectal adenomas and 22 matched normal tissues.

FIG. 3 is a schematic representation of predicted RNA variants derived from hCG_1815491. cDNA clones derived from map region 8579310 to 8562303 on human chromosome 16 were used to locate exon sequences. Arrows: Oligo nucleotide primer sets were designed to allow measurement of individual RNA variants by PCR. Primers covering splice junctions are shown as spanning intron sequences which is not included in the actual oligonucleotide primer sequence.

DETAILED DESCRIPTION OF THE INVENTION

The present invention is predicated, in part, on the elucidation of gene expression profiles which characterise large intestine cellular populations in terms of their neoplastic state and, more particularly, whether they are malignant or pre-malignant. This finding has now facilitated the development of routine means of screening for the onset or predisposition to the onset of a large intestine neoplasm or characterising cellular populations derived from the large intestine based on screening for downregulation of the expression of these molecules, relative to control expression patterns and levels. To this end, in addition to assessing expression levels of the subject genes relative to normal or non-neoplastic levels, it has been determined that a proportion of these genes are not expressed in the diseased state, thereby facilitating the development of a simple qualitative test based on requiring assessment only relative to test background levels.

In accordance with the present invention, it has been determined that the genes detailed above are modulated, in terms of differential changes to their levels of expression, depending on whether the cell expressing that gene is neoplastic or not. It should be understood that reference to a gene “expression product” or “expression of a gene” is a reference to either a transcription product (such as primary RNA or mRNA) or a translation product such as protein. In this regard, one can assess changes to the level of expression of a gene either by screening for changes to the level of expression product which is produced (i.e. RNA or protein), changes to the chromatin proteins with which the gene is associated, for example the presence of histone H3 methylated on lysine at amino acid position number 9 or 27 (repressive modifications) or changes to the DNA itself which acts to downregulate expression, such as changes to the methylation of the DNA. These genes and their gene expression products, whether they be RNA transcripts, changes to the DNA which act to downregulate expression or encoded proteins, are collectively referred to as “neoplastic markers”.

Accordingly, one aspect of the present invention is directed to a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200600_at 210133_at 227235_at 200621_at 210139_s_at 227265_at 200795_at 210298_x_at 227404_s_at 200799_at 210299_s_at 227529_s_at 200845_s_at 210302_s_at 227561_at 200859_x_at 210495_x_at 227623_at 200897_s_at 210517_s_at 227662_at 200974_at 210764_s_at 227705_at 200986_at 210809_s_at 227727_at 201041_s_at 210946_at 227826_s_at 201058_s_at 210982_s_at 227827_at 201061_s_at 211161_s_at 228202_at 201069_at 211548_s_at 228504_at 201105_at 211596_s_at 228507_at 201137_s_at 211643_x_at 228640_at 201141_at 211644_x_at 228706_s_at 201150_s_at 211645_x_at 228707_at 201289_at 211671_s_at 228750_at 201300_s_at 211696_x_at 228766_at 201324_at 211719_x_at 228846_at 201348_at 211798_x_at 228854_at 201426_s_at 211813_x_at 228885_at 201427_s_at 211848_s_at 229530_at 201438_at 211889_x_at 229839_at 201496_x_at 211896_s_at 230087_at 201497_x_at 211959_at 230264_s_at 201539_s_at 211964_at 230788_at 201540_at 211985_s_at 230830_at 201616_s_at 211990_at 231120_x_at 201617_x_at 211991_s_at 231579_s_at 201645_at 212077_at 231773_at 201667_at 212091_s_at 234764_x_at 201739_at 212097_at 234987_at 201743_at 212136_at 236300_at 201744_s_at 212158_at 236313_at 201842_s_at 212185_x_at 242317_at 201852_x_at 212192_at 200884_at 201858_s_at 212195_at 201495_x_at 201859_at 212230_at 202266_at 201865_x_at 212233_at 202350_s_at 201893_x_at 212265_at 202731_at 201920_at 212288_at 202741_at 201957_at 212386_at 202742_s_at 202007_at 212387_at 202768_at 202037_s_at 212397_at 202838_at 202069_s_at 212414_s_at 203058_s_at 202133_at 212419_at 203060_s_at 202222_s_at 212464_s_at 203240_at 202242_at 212667_at 203296_s_at 202274_at 212671_s_at 203343_at 202283_at 212713_at 203474_at 202291_s_at 212730_at 203638_s_at 202388_at 212764_at 203963_at 202555_s_at 212859_x_at 204018_x_at 202620_s_at 212956_at 204034_at 202686_s_at 213068_at 204036_at 202746_at 213071_at 204130_at 202760_s_at 213428_s_at 204388_s_at 202766_s_at 213509_x_at 204389_at 202888_s_at 213624_at 204508_s_at 202920_at 213746_s_at 204532_x_at 202953_at 213891_s_at 204607_at 202957_at 214027_x_at 204673_at 202992_at 214038_at 204818_at 202994_s_at 214091_s_at 204895_x_at 202995_s_at 214142_at 204897_at 203000_at 214414_x_at 205112_at 203001_s_at 214505_s_at 205259_at 203066_at 214677_x_at 205403_at 203131_at 214696_at 205480_s_at 203305_at 214752_x_at 205554_s_at 203382_s_at 214768_x_at 205593_s_at 203477_at 214777_at 205892_s_at 203645_s_at 215049_x_at 205929_at 203680_at 215076_s_at 206000_at 203729_at 215118_s_at 206094_x_at 203748_x_at 215176_x_at 206262_at 203766_s_at 215193_x_at 206377_at 203881_s_at 215382_x_at 206385_s_at 203908_at 215388_s_at 206664_at 203913_s_at 215657_at 207126_x_at 203914_x_at 216207_x_at 207245_at 203951_at 216401_x_at 207390_s_at 203980_at 216442_x_at 207392_x_at 204069_at 216474_x_at 207432_at 204083_s_at 216576_x_at 207761_s_at 204122_at 216834_at 208596_s_at 204135_at 216984_x_at 208920_at 204326_x_at 217148_x_at 209114_at 204438_at 217179_x_at 209374_s_at 204457_s_at 217235_x_at 209458_x_at 204570_at 217258_x_at 209791_at 204688_at 217378_x_at 210107_at 204697_s_at 217480_x_at 210524_x_at 204719_at 217546_at 210735_s_at 204745_x_at 217757_at 211372_s_at 204834_at 217762_s_at 211538_s_at 204894_s_at 217764_s_at 211549_s_at 204931_at 217767_at 211637_x_at 204938_s_at 217897_at 211699_x_at 204939_s_at 217967_s_at 211745_x_at 204940_at 218087_s_at 212224_at 204955_at 218162_at 212592_at 205097_at 218224_at 212741_at 205200_at 218312_s_at 212814_at 205267_at 218353_at 213317_at 205382_s_at 218418_s_at 213451_x_at 205412_at 218468_s_at 213629_x_at 205433_at 218469_at 213921_at 205464_at 218559_s_at 213953_at 205547_s_at 218756_s_at 214164_x_at 205683_x_at 219014_at 214433_s_at 205935_at 219087_at 214598_at 205950_s_at 219508_at 214916_x_at 206134_at 219607_s_at 215125_s_at 206143_at 219669_at 215299_x_at 206149_at 219799_s_at 215867_x_at 206198_s_at 220026_at 216336_x_at 206199_at 220037_s_at 216491_x_at 206208_at 220376_at 216510_x_at 206209_s_at 220834_at 217022_s_at 206422_at 221541_at 217109_at 206461_x_at 221667_s_at 217110_s_at 206561_s_at 221747_at 217165_x_at 206576_s_at 221748_s_at 217232_x_at 206637_at 222043_at 217414_x_at 206641_at 222162_s_at 218541_s_at 206710_s_at 222453_at 218546_at 206784_at 222513_s_at 219059_s_at 207003_at 222717_at 219543_at 207080_s_at 222722_at 219796_s_at 207134_x_at 223121_s_at 219948_x_at 207266_x_at 223122_s_at 220075_s_at 207502_at 223235_s_at 220266_s_at 207961_x_at 223343_at 220468_at 207977_s_at 223395_at 220645_at 207980_s_at 223551_at 220812_s_at 208131_s_at 223623_at 221004_s_at 208370_s_at 223952_x_at 221305_s_at 208383_s_at 224009_x_at 221584_s_at 208399_s_at 224352_s_at 221841_s_at 208450_at 224412_s_at 221896_s_at 208581_x_at 224480_s_at 223484_at 208747_s_at 224560_at 223597_at 208763_s_at 224663_s_at 223754_at 208788_at 224694_at 224342_x_at 208789_at 224823_at 224989_at 208791_at 224836_at 224990_at 208792_s_at 224840_at 225458_at 208894_at 224959_at 225728_at 209047_at 224963_at 226147_s_at 209074_s_at 224964_s_at 226302_at 209101_at 225207_at 226594_at 209116_x_at 225242_s_at 226654_at 209138_x_at 225269_s_at 226811_at 209147_s_at 225275_at 227052_at 209156_s_at 225353_s_at 227522_at 209167_at 225381_at 227682_at 209170_s_at 225442_at 227725_at 209191_at 225575_at 227735_s_at 209209_s_at 225602_at 227736_at 209210_s_at 225604_s_at 228133_s_at 209283_at 225626_at 228195_at 209301_at 225688_s_at 228232_s_at 209312_x_at 225710_at 228241_at 209335_at 225720_at 228469_at 209357_at 225721_at 228961_at 209373_at 225782_at 229070_at 209436_at 225894_at 229254_at 209457_at 225895_at 229659_s_at 209496_at 226001_at 229831_at 209498_at 226051_at 230595_at 209612_s_at 226084_at 231925_at 209613_s_at 226103_at 231975_s_at 209621_s_at 226303_at 233565_s_at 209651_at 226304_at 235146_at 209656_s_at 226333_at 235766_x_at 209667_at 226430_at 235849_at 209668_x_at 226492_at 238143_at 209687_at 226682_at 238750_at 209735_at 226694_at 238751_at 209763_at 226818_at 239272_at 209868_s_at 226834_at 241994_at 209948_at 226841_at 242447_at 210084_x_at 227006_at 242601_at 227099_s_at 227061_at 243278_at; and/or (ii) CLCA4 SGK MT1X ZG16 CFL2 AOC3 CA2 C1S PPAP2A CA1 SELENBP1 ZSCAN18 MS4A12 MT1E IVD AQP8 ADAMTS1 SFRP1 SLC4A4 ITM2A COL4A2 CEACAM7 POU2AF1 GPM6B TAGLN FAM55D EPB41L3 GUCA1B C6orf204 MAOA GCG AKAP12 DMD ADH1B TUBB6 MSRB3 UGT2B17 LGALS2 PLOD2 ADAMDEC1 KIAA0828 C9orf19 MT1M MGC14376 MDER3 AKR1B10 PPP1R14A XDH FN1 MUC4 CLDN23 MGP PKIB SGCE CXCL12 PIGR FOXF2 PDK4 ASPN AGR3 CA4 A2M IGLJ3 PYY LOC25845 QKI IGHA1 LGALS1 LOC399959 TPM2 BCHE ANKRD25 C6orf105 ST6GALNAC1 CRISPLD2 HPGD GJA1 ANK2 ADH1C SCNN1B LOC283666 CLCA1 FABP4 CRYAB FABP1 F13A1 ACAT1 ENAM CD36 IGL@ CFD SPARCL1 PBLD GUCA2B ZCWPW2 CCL8 FBLN1 TNC LIFR LOC63928 MT1A HLA-DRB1 ABCA8 LOC652745 UGP2 POSTN MALL IGKV1D-13 DCN GNG2 AP1S2 ITLN1 DNASE1L3 EMP3 COL6A2 EGR1 MMP28 FCGBP CMBL UGT2A3 SLC26A2 GCNT3 RGS5 PGM5 SERPING1 PTGIS DMN MEIS1 DUSP5 GPNMB EDN3 MFAP4 IGFBP5 MSN UGT1A6 CLEC3B MT1G PRKAR2B LOC253012 TPSAB1 HHLA2 DPT GPX3 LOC652128 PCK1 CDKN2B C3 CNN1 FOSB ATP2B4 HSD17B2 HSPA1A HBA1 PLAC8 CYBRD1 TCF21 TMEM47 PTGER4 PPID OGN MAG1 PPAP2B CALD1 BEST2 SPON1 ACTG2 HLA-DQA1 PHLDB2 MGC4172 PRIMA1 RARRES2 MAB21L2 MT1F ETHE1 RPL24 MAFB MMP2 ABCG2 FAM107A SRI CCDC80 PRKACB CNTN3 UGT1A1 SELM RGS2 MRC1 TYROBP COL6A1 HSD11B2 TNS1 FBN1 ANPEP MYH11 MXD1 MATN2 ITM2C PLCE1 PRNP CES2 KCNMB1 ABI3BP MS4A4A CALM1 HLA-C PDGFRA HLA-DPB1 NDE1 CA12 SMOC2 SRPX FKBP5 LOC285382 WWTR1 HSPB8 CLIC5 HMGCS2 TPSB2 APOE LOC646627 FGL2 SERPINF1 KRT20 C1QB PPP1R12B KLF4 ANGPTL1 HSPB6 FHL1 MEP1A FNBP1 ARL14 GUCY1A3 C4orf34 LUM UGDH SORBS2 SORBS1 DUSP1 GPA33 METTL7A C2orf40 GALNAC4S-6ST FAM129A PLN CFHR1 SCARA5 UGT2B15 MGC13057 SI PDLIM3 C10orf56 ACTA2 TP53INP2 SULT1A1 CD177 ATP8B1 TTRAP C10orf99 ANK3 CCL28 COL15A1 CTGF IDH3A NR3C2 MUCDHL EDG2 DHRS9 SDPR UGT1A8 LMOD1 COL14A1 RAB27A EFEMP1 DSCR1 ANTXR1 GREM1 CITED2 EMP1 IL1R2 MT1H CSRP1 LOC387763 NEXN PLEKHC1 TIMP3 MUC2 LOC572558 MYLK NID1 FOXP2 CLDN8 HBB HSPA2 RDX GCNT2 ATP1A2 TSPAN7 C20orf118 TNXB TNFRSF17 SLC20A1 FUCA1 SYNPO2 CD14 MRGPRF VIM KCTD12 HIGD1A SMPDL3A RBMS1 MFSD4 P2RY14 PTRF AXL CHGA TSPAN1 AQP1 C15orf48 UGT1A9 MAP1B COL3A1 COX7A1 PALLD CYR61 MUC12 MPEG1 TRPM6 PDCD4 KLHL5 OSTbeta CAV1 TCEAL7 IGLV1-44 FAM46C FILIP1L VSIG2 LRIG1 IQGAP2 IGHM HLA-DPA1 PRDX6 LRRC19 C1orf115 RAB31 CD163 HBA2 LOC96610 CEACAM1 EDIL3 FGFR2 TIMP2 DES PAPSS2 ENTPD5 MT2A XLKD1 DDR2 KCNMA1 SMTN CHRDL1 GAS1 C8orf4 SRGN TBC1D9 SDCBP2 PDE9A C7 CCL11 PMP22 P2RY1 ELOVL5 FLNA NR3C1 FOXF1 STMN2 STOM RELL1 MYL9 CKB PNMA1 SEMA6D CLU LOC339562 PADI2 SLC26A3 PALM2-AKAP2 SEPPI SDC2 PAG1 TGFB1I1 SST HCLS1 SFRP2 HLA-DRA RGS1 UGT1A3 TSC22D3 FXYD6 MS4A7 IL6ST OLFML3 ALDH1A1 C1QC COL6A3

in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

In one embodiment, said expression is assessed by screening for DNA changes which impact on methylation, in particular hypermethylation. In another embodiment expression is assessed by the association of DNA with chromatin proteins carrying repressive modifications, for example, methylation of lysines 9 or 27 of the histone H3.

Reference to “large intestine” should be understood as a reference to a cell derived from one of the six anatomical regions of the large intestine, which regions commence after the terminal region of the ileum, these being:

-   -   (i) the cecum;     -   (ii) the ascending colon;     -   (iii) the transverse colon;     -   (iv) the descending colon;     -   (v) the sigmoid colon; and     -   (vi) the rectum.

Reference to “neoplasm” should be understood as a reference to a lesion, tumour or other encapsulated or unencapsulated mass or other form of growth which comprises neoplastic cells. A “neoplastic cell” should be understood as a reference to a cell exhibiting abnormal growth. The term “growth” should be understood in its broadest sense and includes reference to proliferation. In this regard, an example of abnormal cell growth is the uncontrolled proliferation of a cell. Another example is failed apoptosis in a cell, thus prolonging its usual life span. The neoplastic cell may be a benign cell or a malignant cell. In a preferred embodiment, the subject neoplasm is an adenoma or an adenocarcinoma. Without limiting the present invention to any one theory or mode of action, an adenoma is generally a benign tumour of epithelial origin which is either derived from epithelial tissue or exhibits clearly defined epithelial structures. These structures may take on a glandular appearance. It can comprise a malignant cell population within the adenoma, such as occurs with the progression of a benign adenoma to a malignant adenocarcinoma.

Preferably, said neoplastic cell is an adenoma or adenocarcinoma and even more preferably a colorectal adenoma or adenocarcinoma.

Each of the genes and transcripts detailed in sub-paragraphs (i) and (ii), above, would be well known to the person of skill in the art, as would their encoded proteins. The identification of the expression products of these genes and transcripts as markers of neoplasia occurred by virtue of differential expression analysis using Affymetrix HGU133A or HGU133B gene chips. To this end, each gene chip is characterised by approximately 45,000 probe sets which detect the RNA transcribed from the genome. On average, approximately 11 probe pairs detect overlapping or consecutive regions of the RNA transcript. In general, the genes from which the RNA transcripts described herein are identifiable by the Affymetrix probesets are well known and characterised genes. However, to the extent that some of the probesets detect RNA transcripts which are not yet defined, these transcripts are indicated as “the gene, genes or transcripts detected by Affymetrix probe x”. In some cases a number of genes may be detectable by a single probeset. It should be understood, however, that this is not intended as a limitation as to how the expression level of the subject gene or transcript can be detected. In the first instance, it would be understood that the subject gene transcript is also detectable by other probesets which would be present on the Affymetrix gene chip. The reference to a single probeset is merely included as an identifier of the gene transcript of interest. In terms of actually screening for the transcript, however, one may utilise a probe or probeset directed to any region of the transcript and not just to the 3-terminal 600 bp transcript region to which the Affymetrix probes are often directed.

Reference to each of the genes and transcripts detailed above and their transcribed and translated expression products should therefore be understood as a reference to all forms of these molecules and to fragments or variants thereof. As would be appreciated by the person of skill in the art, some genes are known to exhibit allelic variation between individuals. Accordingly, the present invention should be understood to extend to such variants which, in terms of the present diagnostic applications, achieve the same outcome despite the fact that minor genetic variants between the actual nucleic acid sequences may exist between individuals or that within one individual there may exist 2 or more splice variants of the subject gene. The present invention should therefore be understood to extend to all forms of RNA (eg mRNA, primary RNA transcript, miRNA, etc), cDNA and peptide isoforms which arise from alternative splicing or any other mutation, polymorphic or allelic variation. It should also be understood to include reference to any subunit polypeptides such as precursor forms which may be generated, whether existing as a monomer, multimer, fusion protein or other complex.

To this end, in terms of the genes encompassed by the present invention, means for determining the existence of such variants, and characterising same, are described in Example 6. To the extent that the genes of the present invention are described by reference to an Affymetrix probeset, Table 6 provides details of the nucleic acid sequence to which each probe set is directed. Based on this information, the skilled person could, as a matter of routine procedure, identify the gene in respect of which that sequence forms part. A typical protocol for doing this is also outlined in Example 6.

It should be understood that the “individual” who is the subject of testing may be any human or non-human mammal. Examples of non-human mammals includes primates, livestock animals (e.g. horses, cattle, sheep, pigs, donkeys), laboratory test animals (e.g. mice, rats, rabbits, guinea pigs), companion animals (e.g. dogs, cats) and captive wild animals (e.g. deer, foxes). Preferably the mammal is a human.

The method of the present invention is predicated on the comparison of the level of the neoplastic markers of a biological sample with the control levels of these markers. The “control level” may be either a “normal level”, which is the level of marker expressed by a corresponding large intestine cell or cellular population which is not neoplastic.

The normal (or “non-neoplastic”) level may be determined using tissues derived from the same individual who is the subject of testing. However, it would be appreciated that this may be quite invasive for the individual concerned and it is therefore likely to be more convenient to analyse the test results relative to a standard result which reflects individual or collective results obtained from individuals other than the patient in issue. This latter form of analysis is in fact the preferred method of analysis since it enables the design of kits which require the collection and analysis of a single biological sample, being a test sample of interest. The standard results which provide the normal level may be calculated by any suitable means which would be well known to the person of skill in the art. For example, a population of normal tissues can be assessed in terms of the level of the neoplastic markers of the present invention, thereby providing a standard value or range of values against which all future test samples are analysed. It should also be understood that the normal level may be determined from the subjects of a specific cohort and for use with respect to test samples derived from that cohort. Accordingly, there may be determined a number of standard values or ranges which correspond to cohorts which differ in respect of characteristics such as age, gender, ethnicity or health status. Said “normal level” may be a discrete level or a range of levels. A decrease in the expression level of the subject genes relative to normal levels is indicative of the tissue being neoplastic.

Without limiting the present invention to any one theory or mode of action, although each of the genes or transcripts hereinbefore described is differentially expressed, either singly or in combination, as between neoplastic versus non-neoplastic cells of the large intestine, and is therefore diagnostic of the existence of a large intestine neoplasm, the expression of some of these genes was found to exhibit particularly significant levels of sensitivity, specificity and positive and negative predictive value. Accordingly, in a preferred embodiment one would screen for and assess the expression level of one or more of these genes. To this end, and without limiting the present invention to any one theory or mode of action, the following markers were determined to be expressed in neoplastic tissue at a level of 3-11 fold less than non-neoplastic tissue, when assessed by virtue of the method exemplified herein:

Fold Gene, genes or transcripts Decrease detected by Affymetrix Probe No: Gene 11 220026_at CLCA4 10 214142_at ZG16 9 209301_at CA1 205950_s_at CA2 8 220834_at MS4A12 7 206784_at AQP8 6 203908_at SLC4A4 206198_s_at CEACAM7 205547_s_at TAGLN 207003_at GUCA1B 206422_at GCG 209613_s_at ADH1B 207245_at UGT2B17 5 206134_at ADAMDEC1 217546_at MT1M 206561_s_at AKR1B10 211719_x_at FN1 202291_s_at MGP 209687_at CXCL12 4 225207_at PDK4 206208_at CA4 207080_s_at PYY 215118_s_at IGHA1 204083_s_at TPM2 229070_at C6orf105 211548_s_at HPGD 206262_at ADH1C 210107_at CLCA1 205892_s_at FABP1 212592_at ENAM 205382_s_at CFD 207502_at GUCA2B 202995_s_at FBLN1 206149_at LOC63928 204719_at ABCA8 3 210809_s_at POSTN 201893_x_at DCN 223597_at ITLN1 209156_s_at COL6A2 203240_at FCGBP 224963_at SLC26A2 226303_at PGM5 212730_at DMN 201141_at GPNMB 211959_at IGFBP5 205200_at CLEC3B 242601_at LOC253012 213068_at DPT 208383_s_at PCK1 203951_at CNN1 204818_at HSD17B2 219014_at PLAC8 209656_s_at TMEM47 222722_at OGN 201617_x_at CALD1 202274_at ACTG2 218756_s_at MGC4172 210302_s_at MAB21L2 228885_at RPL24 209735_at ABCG2 228504_at CCDC80 225242_s_at UGT1A1 215125_s_at MRC1 204438_at HSD11B2 204130_at ANPEP 202888_s_at MATN2 202350_s_at PRNP 201300_s_at ABI3BP 223395_at HLA-C 214768_x_at NDE1 228133_s_at SRPX 204955_at WWTR1 202133_at HMGCS2 204607_at LOC646627 238143_at KRT20 213953_at KLF4 220266_s_at FHL1 210299_s_at ARL14 220468_at LUM 201744_s_at SORBS1 218087_s_at METTL7A 207761_s_at FAM129A 217967_s_at SCARA5 229839_at SI 206664_at ACTA2 200974_at CD177 219669_at C10orf99 227736_at COL15A1 203477_at NR3C2 205259_at

There is therefore more particularly provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 220026 at; and/or     -   (ii) CLCA4

in a biological sample from said individual wherein a lower level of expression of the gene or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

Preferably, said control level is a non-neoplastic level.

In another embodiment, there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 214142_at; and/or     -   (ii) ZG16         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) relative to control levels is indicative of a         neoplastic large intestine cell or a cell predisposed to the         onset of a neoplastic state.

Preferably, said control level is a non-neoplastic level.

In yet another embodiment there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 209301_at 205950 s_at; and/or     -   (ii) CA2 CA1         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) relative to control levels is indicative of a         neoplastic large intestine cell or a cell predisposed to the         onset of a neoplastic state.

Preferably, said control level is a non-neoplastic level.

In still yet another preferred embodiment, there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 220834_at; and/or     -   (ii) MS4A12         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) relative to control levels is indicative of a         neoplastic large intestine cell or a cell predisposed to the         onset of a neoplastic state.

Preferably, said control level is a non-neoplastic level.

In yet still another preferred embodiment, there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 206784_at; and/or     -   (ii) AQP8         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) relative to control levels is indicative of a         neoplastic large intestine cell or a cell predisposed to the         onset of a neoplastic state.

Preferably, said control level is a non-neoplastic level.

In a further embodiment, there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) (1) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 203908_at, 206198_s_at, 205547_s_at, 207003_at,         206422_at, 209613_s_at, 207245_at; and/or     -   (ii) SLC4A4, CEACAM7, TAGLN, GUCA1B, GCG, ADH1B, UGT2B17         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) relative to control levels is indicative of a         neoplastic large intestine cell or a cell predisposed to the         onset of a neoplastic state.

Preferably, said control level is a non-neoplastic level.

In another further embodiment, there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 206134_at, 217546_at, 206561_s_at, 211719_x_at,         202291_s_at, 209687_at; and/or     -   (ii) ADAMDEC1, MT1M, AKR1B10, FN1, MGP, CXCL12         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) relative to control levels is indicative of a         neoplastic large intestine cell or a cell predisposed to the         onset of a neoplastic state.

Preferably, said control level is a non-neoplastic level.

In still another further embodiment, there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 225207_at 211548_s_at 205382_s_at 206208_at 206262_at 207502_at 207080_s_at 210107_at 202995_s_at 215118_s_at 205892_s_at 206149_at 204083_s_at 212592_at 204719_at 229070_at; and/or (ii) PDK4 HPGD CFD CA4 ADH1C GUCA2B PYY CLCA1 FBLN1 IGHA1 FABP1 LOC63928 TPM2 ENAM ABCA8 C6orf105 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

Preferably, said control level is a non-neoplastic level.

In yet still yet another further embodiment, there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 210809_s_at 201617_x_at 202133_at 201893_x_at 202274_at 204607_at 223597_at 218756_s_at 238143_at 209156_s_at 210302_s_at 213953_at 203240_at 228885_at 220266_s_at 224963_at 209735_at 210299_s_at 226303_at 228504_at 220468_at 212730_at 225242_s_at 201744_s_at 201141_at 215125_s_at 218087_s_at 211959_at 204438_at 207761_s_at 205200_at 204130_at 217967_s_at 242601_at 202888_s_at 229839_at 213068_at 202350_s_at 206664_at 208383_s_at 201300_s_at 200974_at 203951_at 223395_at 219669_at 204818_at 214768_x_at 227736_at 219014_at 228133_s_at 203477_at 209656_s_at 204955_at 205259_at 222722_at; and/or (ii) POSTN OGN WWTR1 DCN CALD1 HMGCS2 ITLN1 ACTG2 LOC646627 COL6A2 MGC4172 KRT20 FCGBP MAB21L2 KLF4 SLC26A2 RPL24 FHL1 PGM5 ABCG2 ARL14 DMN CCDC80 LUM GPNMB UGT1A1 SORBS1 IGFBP5 MRC1 METTL7A CLEC3B HSD11B2 FAM129A LOC253012 ANPEP SCARA5 DPT MATN2 SI PCK1 PRNP ACTA2 CNN1 ABI3BP CD177 HSD17B2 HLA-C C10orf99 PLAC8 NDE1 COL15A1 TMEM47 SRPX NR3C2 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a neoplastic large intestine cell or a cell predisposed to the onset of a neoplastic state.

Preferably, said control level is a non-neoplastic level.

According to these aspects of the present invention, said large intestine tissue is preferably colorectal tissue.

In one embodiment, said expression is assessed by screening for DNA changes which impact on methylation, in particular hypermethylation. In another embodiment, expression is assessed by the association of DNA with chromatin proteins carrying repressive modifications, for example, methylation of lysines 9 or 27 of histone H3.

The detection method of the present invention can be performed on any suitable biological sample. To this end, reference to a “biological sample” should be understood as a reference to any sample of biological material derived from an animal such as, but not limited to, cellular material, biofluids (eg. blood), faeces, tissue specimens (such as biopsy specimens), surgical specimens or fluid which has been introduced into the body of an animal and subsequently removed (such as, for example, the solution retrieved from an enema wash). The biological sample which is tested according to the method of the present invention may be tested directly or may require some form of treatment prior to testing. For example, a biopsy or surgical sample may require homogenisation prior to testing or it may require sectioning for in situ testing of the qualitative expression levels of individual genes. Alternatively, a cell sample may require permeabilisation prior to testing. Further, to the extent that the biological sample is not in liquid form, (if such form is required for testing) it may require the addition of a reagent, such as a buffer, to mobilise the sample.

To the extent that the neoplastic marker gene expression product is present in a biological sample, the biological sample may be directly tested or else all or some of the nucleic acid material present in the biological sample may be isolated prior to testing. In yet another example, the sample may be partially purified or otherwise enriched prior to analysis. For example, to the extent that a biological sample comprises a very diverse cell population, it may be desirable to enrich for a sub-population of particular interest. It is within the scope of the present invention for the target cell population or molecules derived therefrom to be pretreated prior to testing, for example, inactivation of live virus or being run on a gel. It should also be understood that the biological sample may be freshly harvested or it may have been stored (for example by freezing) prior to testing or otherwise treated prior to testing (such as by undergoing culturing).

The choice of what type of sample is most suitable for testing in accordance with the method disclosed herein will be dependent on the nature of the situation. Preferably, said sample is a faecal (stool) sample, enema wash, surgical resection, tissue or blood specimen.

In a related aspect, it has been determined that certain of the markers hereinbefore defined are more indicative of adenoma development versus cancer development or vice versa. This is an extremely valuable finding since it enables one to more specifically characterise the likely nature of a neoplasm which is detected by virtue of the method of the present invention.

Accordingly, in a related aspect the present invention is directed to a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200600_at 208788_at 215382_x_at 200665_s_at 208789_at 215388_s_at 200799_at 208894_at 216442_x_at 200845_s_at 209047_at 216474_x_at 200859_x_at 209101_at 216834_at 200897_s_at 209138_x_at 217480_x_at 200974_at 209147_s_at 217757_at 200986_at 209156_s_at 217762_s_at 201041_s_at 209191_at 217764_s_at 201061_s_at 209209_s_at 217767_at 201069_at 209210_s_at 217897_at 201105_at 209312_x_at 218162_at 201137_s_at 209335_at 218224_at 201141_at 209436_at 218312_s_at 201150_s_at 209457_at 218353_at 201289_at 209496_at 218418_s_at 201300_s_at 209621_s_at 218468_s_at 201426_s_at 209651_at 218469_at 201438_at 209656_s_at 218559_s_at 201616_s_at 209868_s_at 219087_at 201617_x_at 210084_x_at 219607_s_at 201645_at 210133_at 221541_at 201667_at 210139_s_at 222043_at 201743_at 210495_x_at 222453_at 201744_s_at 210517_s_at 222513_s_at 201842_s_at 210764_s_at 223121_s_at 201852_x_at 210809_s_at 223122_s_at 201858_s_at 210982_s_at 223235_s_at 201859_at 211161_s_at 223343_at 201865_x_at 211596_s_at 224560_at 201893_x_at 211671_s_at 224694_at 201920_at 211719_x_at 224840_at 202007_at 211813_x_at 224964_s_at 202069_s_at 211896_s_at 225242_s_at 202133_at 211959_at 225269_s_at 202283_at 211964_at 225353_s_at 202291_s_at 211985_s_at 225381_at 202403_s_at 211990_at 225442_at 202620_s_at 211991_s_at 225602_at 202686_s_at 212077_at 225604_s_at 202760_s_at 212091_s_at 225626_at 202766_s_t 212136_at 225688_s_at 202953_at 212158_at 225710_at 202957_at 212185_x_at 226001_at 202994_s_at 212195_at 226051_at 202995_s_at 212230_at 226084_at 203066_at 212233_at 226103_at 203131_at 212265_at 226430_at 203305_at 212386_at 226682_at 203382_s_at 212387_at 226694_at 203477_at 212397_at 226818_at 203645_s_at 212414_s_at 226834_at 203680_at 212419_at 226841_at 203729_at 212464_s_at 227061_at 203748_x_at 212667_at 227099_s_at 204069_at 212671_s_at 227235_at 204122_at 212713_at 227404_s_at 204135_at 212764_at 227529_s_at 204438_at 212956_at 227561_at 204457_s_at 213428_s_at 227623_at 204570_at 213509_x_at 227705_at 204688_at 213746_s_at 227727_at 205412_at 213891_s_at 228507_at 205683_x_at 214038_at 228750_at 205935_at 214677_x_at 228846_at 207134_x_at 214752_x_at 229530_at 207266_x_at 215049_x_at 230264_s_at 208131_s_at 215076_s_at 231579_s_at 208370_s_at 215193_x_at 234987_at; and/or 208747_s_at (ii) A2M FBN1 PALLD ACAT1 FILIP1L PALM2-AKAP2 ACTA2 FKBP5 PDGFRA AKAP12 FLNA PDLIM3 ANKRD25 FN1 PHLDB2 ANTXR1 FOXF1 PLEKHC1 AP1S2 FXYD6 PLOD2 APOE GALNAC4S-6ST PMP22 AQP1 GAS1 PNMA1 ASPN GJA1 POSTN ATP2B4 GNG2 PPAP2A AXL GPNMB PPAP2B C10orf56 GREM1 PRDX6 C1QB GUCY1A3 PRKAR2B C1QC HCLS1 PRNP C1S HLA-DPA1 PTGIS C20orf118 HLA-DPB1 PTRF C3 HLA-DQA1 QKI C9orf19 HLA-DRA RAB31 CALD1 HLA-DRB1 RARRES2 CALM1 HSPA1A RBMS1 CCDC80 IDH3A RDX CCL11 IGFBP5 RELL1 CCL8 IGL@ RGS1 CD14 IGLJ3 RGS5 CD163 IL6ST SDC2 CES2 KLHL5 SELM CFHR1 LGALS1 SEPT6 CLU LOC283666 SERPINF1 COL14A1 LOC339562 SERPING1 COL15A1 LOC387763 SFRP2 COL1A2 LOC399959 SGCE COL3A1 LRIG1 SLC20A1 COL4A2 LUM SMOC2 COL6A1 MAFB SORBS1 COL6A2 MAP1B SPARC COL6A3 MEIS1 SPON1 COX7A1 MFAP4 SRGN CRISPLD2 MGP STOM CTGF MMP2 TBC1D9 CYBRD1 MPEG1 TCEAL7 CYR61 MRC1 TGFB1I1 DCN MRGPRF TIMP2 DDR2 MS4A4A TIMP3 DSCR1 MS4A7 TMEM47 DUSP1 MSN TNC DUSP5 MT2A TPSAB1 EFEMP1 MXD1 TPSB2 EGR1 NEXN TUBB6 ELOVL5 NID1 TYROBP EMP3 NR3C1 VIM F13A1 OLFML3 WWTR1 FBLN1 PAG1 ZSCAN18 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of an adenoma cell or a cell predisposed to the onset of an adenoma state.

In another preferred embodiment of this aspect of the present invention there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene or genes detected by Affymetrix probeset IDs: (i) 200884_at 208596_s_at 220812_s_at 201495_x_at 208920_at 221004_s_at 202266_at 209114_at 221305_s_at 202350_s_at 209374_s_at 221584_s_at 202731_at 209458_x_at 221841_s_at 202741_at 209791_at 221896_s_at 202742_s_at 210107_at 223484_at 202768_at 210524_x_at 223597_at 202838_at 210735_s_at 223754_at 203058_s_at 211372_s_at 224342_x_at 203060_s_at 211538_s_at 224989_at 203240_at 211549_s_at 224990_at 203296_s_at 211637_x_at 225458_at 203343_at 211699_x_at 225728_at 203474_at 211745_x_at 226147_s_at 203638_s_at 212224_at 226302_at 203963_at 212592_at 226594_at 204018_x_at 212741_at 226654_at 204034_at 212814_at 226811_at 204036_at 213317_at 227052_at 204130_at 213451_x_at 227522_at 204388_s_at 213629_x_at 227682_at 204389_at 213921_at 227725_at 204508_s_at 213953_at 227735_s_at 204532_x_at 214164_x_at 227736_at 204607_at 214433_s_at 228133_s_at 204673_at 214598_at 228195_at 204818_at 214916_x_at 228232_s_at 204895_x_at 215125_s_at 228241_at 204897_at 215299_x_at 228469_at 205112_at 215867_x_at 228961_at 205259_at 216336_x_at 229070_at 205403_at 216491_x_at 229254_at 205480_s_at 216510_x_at 229659_s_at 205554_s_at 217022_s_at 229831_at 205593_s_at 217109_at 230595_at 205892_s_at 217110_s_at 231925_at 205929_at 217165_x_at 231975_s_at 206000_at 217232_x_at 233565_s_at 206094_x_at 217414_x_at 235146_at 206262_at 218541_s_at 235766_x_at 206377_at 218546_at 235849_at 206385_s_at 219059_s_at 238143_at 206664_at 219543_at 238750_at 207126_x_at 219796_s_at 238751_at 207245_at 219948_x_at 239272_at 207390_s_at 220075_s_at 241994_at 207392_x_at 220266_s_at 242447_at 207432_at 220468_at 242601_at 207761_s_at 220645_at 243278_at; and/or (ii) ADH1C HIGD1A NR3C2 AGR3 HMGCS2 P2RY1 ALDH1A1 HPGD PADI2 ANK3 HSD11B2 PAPSS2 ARL14 HSD17B2 PBLD ATP1A2 HSPA2 PDCD4 ATP8B1 IGHA1 PDE9A BEST2 IGHM PIGR C10orf99 IL1R2 PLCE1 C15orf48 IL8 PPID Clorf115 IQGAP2 PRKACB C4orf34 ITLN1 PTGER4 C6orf105 ITM2C RAB27A C8orf4 KCNMA1 SCARA5 CA12 KIAA0828 SDCBP2 CCL28 KLF4 SELENBP1 CKB KRT20 SI CLCA1 LOC253012 SMTN CLDN8 LOC25845 SORBS2 CLIC5 LOC285382 SRI CMBL LOC572558 SST CNTN3 LOC646627 ST6GALNAC1 DNASE1L3 LOC652128 SULT1A1 EDG2 LOC96610 TNXB ENAM MAOA TSPAN1 ENTPD5 MATN2 TTRAP ETHE1 MEP1A UGDH FABP1 METTL7A UGP2 FAM46C MFSD4 UGT1A1 FAM55D MGC13057 UGT1A3 FCGBP MIER3 UGT1A6 FGFR2 MMP28 UGT1A8 FOSB MT1A UGT1A9 FOXF2 MT1F UGT2A3 FOXP2 MT1M UGT2B15 FUCA1 MUC12 UGT2B17 GPA33 MUC2 VSIG2 HBA1 MUC4 XDH HBA2 MUCDHL XLKD1 HBB MYH11 ZCWPW2 HHLA2 NDE1 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to control levels is indicative of a cancer cell or a cell predisposed to the onset of a cancerous state.

According to these aspects, said control levels are preferably non-neoplastic levels and said large intestine tissue is colorectal tissue. Even more preferably, said biological sample is a stool sample or blood sample.

In one embodiment, said expression is assessed by screening for DNA changes which impact on methylation, in particular hypermethylation. In another embodiment, expression is assessed by the association of DNA with chromatin proteins carrying repressive modifications, for example, methylation of lysines 9 or 27 of histone H3.

In a related aspect, it has been determined that a subpopulation of the markers of the present invention are not only expressed at levels lower than normal levels, their expression pattern is uniquely characterized by the fact that expression levels above that of background control levels are not detectable in neoplastic tissue. This determination has therefore enabled the development of qualitative screening systems which are simply designed to detect marker expression relative to a control background level. In accordance with this aspect of the present invention, said “control level” is therefore the “background level”.

According to this aspect, there is therefore provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 202920_at 222717_at 231120_x_at 203881_s_at 224412_s_at 231773_at 204719_at 225381_at 203296_s_at 204931_at 225575_at 206664_at 204940_at 227529_s_at 211549_s_at 205433_at 227623_at 214598_at 206637_at 227705_at 219948_x_at 207080_s_at 227827_at 220812_s_at 207980_s_at 228504_at 221305_s_at 209170_s_at 228706_s_at 229831_at 209209_s_at 228766_at 231925_at 209613_s_at 228854_at 235146_at 220037_s_at 228885_at 238751_at 220376_at 230788_at 243278_at; and/or (ii) ADH1B ANGPTL1 HHLA2 SORBS2 DMD SORBS2 PYY GCNT2 CLDN23 ABCA8 SDPR CNTN3 RPL24 PKIB PLEKHC1 SI CITED2 LRRC19 CLDN8 TCF21 LIFR P2RY14 P2RY1 ATP1A2 PLN ANK2 HPGD TRPM6 XLKD1 GPM6B CD36 LOC399959 UGT1A8 BCHE AKAP12 FOXP2 TCEAL7 UGT2A3 in a biological sample from said individual wherein a level of expression of the genes or transcripts of group (i) and/or group (ii) which is not substantially above background levels is indicative of a neoplastic cell or a cell predisposed to the onset of a neoplastic state.

In a most preferred embodiment, said genes or transcripts are selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 209613_s_at, 227827_at, 204719_at, 228504_at,         228885_at, 206664_at, 207080_s_at; and/or     -   (ii) ADH1B, SORBS2, PYY, ABCA8, RPL24, SI Preferably, said         neoplasm is an adenoma or an adenocarinoma and said         gastrointestinal tissue is colorectal tissue.

In yet another embodiment, it has been determined that a further subpopulation of these markers are more characteristic of adenoma development, while others are more characteristic of cancer development. Accordingly, there is provided a convenient means of qualitatively obtaining indicative information in relation to the characteristics of the subject neoplasm.

According to this embodiment there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 209209_s_at, 225381_at, 227529_s_at 227623_at,         227705_at; and/or     -   (ii) AKAP12, LOC399959, PLEKHC1, TCEAL7         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) which is not substantially above background         levels is indicative of an adenoma cell or a cell predisposed to         the onset of an adenoma state.

In yet still another preferred embodiment there is provided a method of screening for the onset or predisposition to the onset of a large intestine neoplasm in an individual, said method comprising screening the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 203296_s_at 219948_x_at 231925_at 206664_at 220812_s_at 235146_at 211549_s_at 221305_s_at 238751_at 214598_at 229831_at 243278_at; and/or (ii) ATP1A2 HHLA2 SORBS2 CLDN8 HPGD UGT1A8 CNTN3 P2RY1 UGT2A3 FOXP2 SI in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) which is not substantially above background levels is indicative of a cancer cell or a cell predisposed to the onset of a cancerous state.

Preferably, said large intestine tissue is colorectal tissue.

More preferably, said biological sample is a stool sample or a blood sample.

In one embodiment, said expression is assessed by screening for DNA changes which impact on methylation, in particular hypermethylation. In another embodiment, expression is assessed by the association of DNA with chromatin proteins carrying repressive modifications, for example, methylation of lysines 9 or 27 of histone H3.

As detailed hereinbefore, the present invention is designed to screen for a neoplastic cell or cellular population, which is located in the large intestine. Accordingly, reference to “cell or cellular population” should be understood as a reference to an individual cell or a group of cells. Said group of cells may be a diffuse population of cells, a cell suspension, an encapsulated population of cells or a population of cells which take the form of tissue.

Reference to “expression” should be understood as a reference to the transcription and/or translation of a nucleic acid molecule. In this regard, the present invention is exemplified with respect to screening for neoplastic marker expression products taking the form of RNA transcripts (eg primary RNA or mRNA). Reference to “RNA” should be understood to encompass reference to any form of RNA, such as primary RNA or mRNA. Without limiting the present invention in any way, the modulation of gene transcription leading to increased or decreased RNA synthesis will also correlate with the translation of some of these RNA transcripts (such as mRNA) to produce a protein product. Accordingly, the present invention also extends to detection methodology which is directed to screening for modulated levels or patterns of the neoplastic marker protein products as an indicator of the neoplastic state of a cell or cellular population. Although one method is to screen for mRNA transcripts and/or the corresponding protein product, it should be understood that the present invention is not limited in this regard and extends to screening for any other form of neoplastic marker expression product such as, for example, a primary RNA transcript.

In terms of screening for the downregulation of expression of a marker it would also be well known to the person of skill in the art that changes which are detectable at the DNA level are indicative of changes to gene expression activity and therefore changes to expression product levels. Such changes include but are not limited to, changes to DNA methylation. Accordingly, reference herein to “screening the level of expression” and comparison of these “levels of expression” to control “levels of expression” should be understood as a reference to assessing DNA factors which are related to transcription, such as gene/DNA methylation patterns.

It would also be known to a person skilled in the art that changes in the structure of chromatin are indicative of changes in gene expression. Silencing of gene expression is often associated with modification of chromatin proteins, methylation of lysines at either or both positions 9 and 27 of histone H3 being well studied examples, while active chromatin is marked by acetylation of lysine 9 of histone H3. Thus association of gene sequences with chromatin carrying repressive or active modifications can be used to make an assessment of the expression level of a gene.

It is well within the skill of the person of skill in the art to determine the most appropriate screening method for any given situation. To this end, the genes which are known to encode an expression product which is either secreted by the cell or membrane bound is detailed in the table below. It would be appreciated that screening for neoplastic markers which are secreted or membrane bound may provide particular advantages in terms of the design of a diagnostic screening product.

The gene or genes detected by Asymetrix probe Nos: 200600_at 205593_s_at 212185_x_at 224480_s_at 200845_s_at 205765_at 212192_at 224663_s_at 200859_x_at 205892_s_at 212224_at 224694_at 200884_at 205927_s_at 212230_at 224823_at 200897_s_at 205929_at 212233_at 224836_at 200974_at 205935_at 212265_at 224840_at 201041_s_at 205935_at 212288_at 224959_at 201058_s_at 205950_s_at 212386_at 224963_at 201061_s_at 206000_at 212387_at 224964_s_at 201069_at 206094_x_at 212397_at 224989_at 201105_at 206143_at 212414_s_at 224990_at 201137_s_at 206149_at 212419_at 225207_at 201300_s_at 206198_s_at 212671_s_at 225242_s_at 201324_at 206199_at 212730_at 225269_s_at 201426_s_at 206208_at 212741_at 225381_at 201539_s_at 206209_s_at 212764_at 225442_at 201540_at 206262_at 212814_at 225458_at 201616_s_at 206377_at 212859_x_at 225575_at 201617_x_at 206385_s_at 212956_at 225602_at 201667_at 206461_x_at 213106_at 225604_s_at 201739_at 206561_s_at 213317_at 225626_at 201743_at 206576_s_at 213509_x_at 225710_at 201865_x_at 206637_at 213629_x_at 225720_at 201920_at 206664_at 213746_s_at 225721_at 201957_at 206710_s_at 213891_s_at 225782_at 202007_at 206784_at 213953_at 225894_at 202069_s_at 207126_x_at 214027_x_at 225895_at 202133_at 207245_at 214234_s_at 226001_at 202242_at 207266_x_at 214235_at 226051_at 202266_at 207390_s_at 214414_x_at 226084_at 202274_at 207392_x_at 214433_s_at 226103_at 202388_at 207432_at 214505_s_at 226147_s_at 202555_s_at 207761_s_at 214598_at 226248_s_at 202620_s_at 207980_s_at 214677_x_at 226302_at 202686_s_at 208063_s_at 214696_at 226303_at 202731_at 208131_s_at 214752_x_at 226304_at 202741_at 208370_s_at 214768_x_at 226333_at 202742_s_at 208383_s_at 214777_at 226430_at 202746_at 208450_at 215049_x_at 226594_at 202760_s_at 208581_x_at 215118_s_at 226654_at 202768_at 208596_s_at 215125_s_at 226682_at 202888_s_at 208763_s_at 215176_x_at 226694_at 202920_at 208788_at 215193_x_at 226811_at 202957_at 208789_at 215299_x_at 226818_at 202992_at 208920_at 215657_at 226834_at 202994_s_at 208937_s_at 216207_x_at 226841_at 202995_s_at 209047_at 216336_x_at 227006_at 203000_at 209074_s_at 216401_x_at 227052_at 203001_s_at 209114_at 216491_x_at 227061_at 203058_s_at 209116_x_at 216576_x_at 227099_s_at 203060_s_at 209138_x_at 216834_at 227235_at 203066_at 209147_s_at 216984_x_at 227404_s_at 203131_at 209156_s_at 217022_s_at 227522_at 203240_at 209167_at 217148_x_at 227529_s_at 203305_at 209170_s_at 217165_x_at 227561_at 203343_at 209191_at 217232_x_at 227623_at 203382_s_at 209209_s_at 217235_x_at 227662_at 203474_at 209210_s_at 217378_x_at 227682_at 203638_s_at 209283_at 217414_x_at 227705_at 203645_s_at 209301_at 217480_x_at 227719_at 203680_at 209312_x_at 217546_at 227725_at 203729_at 209357_at 217762_s_at 227727_at 203748_x_at 209373_at 217764_s_at 227735_s_at 203766_s_at 209374_s_at 217897_at 227736_at 203908_at 209457_at 217967_s_at 228202_at 203913_s_at 209458_x_at 218087_s_at 228232_s_at 203914_x_at 209498_at 218211_s_at 228469_at 203951_at 209612_s_at 218224_at 228504_at 203980_at 209613_s_at 218312_s_at 228507_at 204018_x_at 209621_s_at 218353_at 228640_at 204034_at 209651_at 218418_s_at 228766_at 204036_at 209656_s_at 218546_at 228846_at 204069_at 209667_at 218559_s_at 228854_at 204083_s_at 209668_x_at 219014_at 228961_at 204122_at 209868_s_at 219059_s_at 229070_at 204130_at 209948_at 219508_at 229254_at 204135_at 210107_at 219543_at 229530_at 204326_x_at 210139_s_at 219607_s_at 229659_s_at 204388_s_at 210298_x_at 219796_s_at 229831_at 204389_at 210299_s_at 219948_x_at 229839_at 204438_at 210302_s_at 219955_at 230087_at 204457_s_at 210517_s_at 220026_at 230264_s_at 204532_x_at 210524_x_at 220037_s_at 230595_at 204570_at 210524_x_at 220075_s_at 230788_at 204607_at 210946_at 220266_s_at 230830_at 204688_at 211372_s_at 220376_at 231120_x_at 204697_s_at 211538_s_at 220468_at 231832_at 204719_at 211548_s_at 220812_s_at 231925_at 204745_x_at 211549_s_at 220834_at 231975_s_at 204818_at 211596_s_at 221004_s_at 232176_at 204894_s_at 211637_x_at 221305_s_at 232481_s_at 204897_at 211643_x_at 221667_s_at 233565_s_at 204931_at 211645_x_at 221747_at 234987_at 204938_s_at 211671_s_at 221748_s_at 235146_at 204939_s_at 211696_x_at 221841_s_at 235766_x_at 204940_at 211699_x_at 221874_at 235849_at 204955_at 211745_x_at 221896_s_at 235976_at 205097_at 211798_x_at 222513_s_at 236300_at 205112_at 211848_s_at 222717_at 236313_at 205259_at 211889_x_at 223235_s_at 236894_at 205267_at 211964_at 223343_at 237521_x_at 205403_at 211985_s_at 223395_at 238750_at 205412_at 211990_at 223484_at 241994_at 205433_at 211991_s_at 223551_at 242317_at 205464_at 212077_at 223597_at 242447_at 205480_s_at 212097_at 223623_at 242601_at 205547_s_at 212136_at 224352_s_at 243278_at 205554_s_at 212158_at 224412_s_at ABCA8 EGR1 LOC25845 PPID ABI3BP ELOVL5 LOC283666 PPP1R12B ACAT1 EMP1 LOC285382 PPP1R14A ACTA2 EMP3 LOC339562 PRDX6 ACTG2 ENTPD5 LOC387763 PRIMA1 ADH1B EPB41L3 LOC399959 PRKACB ADH1C ETHE1 LOC572558 PRKAR2B AKAP12 F13A1 LOC63928 PRNP AKR1B10 FABP1 LOC652128 PTGER4 ALDH1A1 FABP4 LOC652745 PTGIS ANK2 FAM107A LRIG1 PTRF ANK3 FAM129A LRRC19 QKI ANKRD25 FAM46C MAB21L2 RAB27A ANPEP FBLN1 MAFB RAB31 ANTXR1 FCGBP MAGI RBMS1 AOC3 FGFR2 MALL RDX AP1S2 FHL1 MAOA RELL1 APOE FILIP1L MAP1B RGS1 AQP1 FKBP5 MEIS1 RGS2 AQP8 FLNA MEP1A RGS5 ARL14 FNBP1 METTL7A SCARA5 ATP2B4 FOSB MFSD4 SCNN1B ATP8A1 FOXF1 MGC14376 SDC2 AXL FOXF2 MIER3 SDCBP2 BCHE FOXP2 MLPH SDPR BEST2 FXYD6 MMP2 SELENBP1 C10orf56 GALNAC4S- MPEG1 SELM C10orf99 6ST MPEG1 SGCE C15orf48 GAS1 MRC1 SGK C1orf115 GCNT2 MRGPRF SI C20orf118 GCNT3 MS4A12 SLC20A1 C2orf40 GJA1 MS4A4A SLC26A2 C4orf34 GNG2 MS4A7 SLC26A3 C6orf105 GPA33 MSN SLC4A4 C6orf204 GPM6B MSRB3 SLITRK6 C7 GUCY1A3 MT1A SMOC2 C9orf19 HBA1 MT1E SMTN CA1 HBA2 MT1F SORBS1 CA2 HBB MT1G SRI CA4 HCLS1 MT1H SRPX CALD1 HHLA2 MT1M ST6GALNAC1 CALM1 HIGD1A MT1X STMN2 CAPN9 HLA-C MT2A STOM CAV1 HLA-DPA1 MUC12 SULT1A1 CCDC80 HLA-DPB1 MUCDHL SYNPO2 CCL28 HLA-DQA1 MXD1 TAGLN CD14 HLA-DRB1 MYL9 TBC1D9 CD163 HMGCS2 MYLK TCEAL7 CD36 HPGD NEXN TCF21 CDKN2B HSD11B2 NID1 TGFB1I1 CEACAM1 HSD17B2 NR3C1 TMEM47 CEACAM7 HSPA2 NR3C2 TNS1 CES2 HSPB6 OSTbeta TP53INP2 CFL2 HSPB8 P2RY1 TPM2 CHGA ID1 P2RY14 TRPM6 CITED2 IDH3A PAG1 TSC22D3 CKB IGHA1 PALLD TSPAN1 CLCA1 IGHM PALM2- TSPAN7 CLCA4 IGKV1D-13 AKAP2 TTRAP CLDN8 IGL@ PAPSS2 TUBB6 CLIC5 IGLJ3 PBLD TYROBP CMBL IL1R2 PCK1 UGDH CNN1 IQGAP2 PDCD4 UGP2 CNTN3 ITLN1 PDE9A UGT1A1 COL4A2 ITM2A PDGFRA UGT1A3 COL6A2 ITM2C PDK4 UGT1A6 COX7A1 KCNMA1 PDLIM3 UGT1A8 CRYAB KCNMB1 PGM5 UGT1A9 CTSE KCTD12 PIGR UGT2A3 CYP3A5 KIAA0828 PKIB UGT2B15 CYP3A5P2 KIAA1324 PLAC8 UGT2B17 DDR2 KLF4 PLCE1 VIM DES KLHL5 PLEKHC1 VSIG2 DMN KRT20 PLN WDR51B DNASE1L3 L1TD1 PLOD2 WWTR1 DSCR1 LGALS1 PMP22 XDH DUSP1 LGALS2 PNMA1 XLKD1 DUSP5 LIFR POU2AF1 ZSCAN18 EDG2 LMOD1 PPAP2A LOC253012 PPAP2B

Reference to “nucleic acid molecule” should be understood as a reference to both deoxyribonucleic acid molecules and ribonucleic acid molecules and fragments thereof. The present invention therefore extends to both directly screening for mRNA levels in a biological sample or screening for the complementary cDNA which has been reverse-transcribed from an mRNA population of interest. It is well within the skill of the person of skill in the art to design methodology directed to screening for either DNA or RNA. As detailed above, the method of the present invention also extends to screening for the protein product translated from the subject mRNA or the genomic DNA itself.

In one preferred embodiment, the level of gene expression is measured by reference to genes which encode a protein product and, more particularly, said level of expression is measured at the protein level. Accordingly, to the extent that the present invention is directed to screening for markers which are detailed in the preceding table, said screening is preferably directed to the encoded protein.

In another particularly preferred embodiment, said gene expression is assessed by analysing genomic DNA methylation. In another embodiment, expression is assessed by the association of DNA with chromatin proteins carrying repressive modifications, for example, methylation of lysines 9 or 27 of histone H3.

As detailed hereinbefore, it should be understood that although the present invention is exemplified with respect to the detection of expressed nucleic acid molecules (e.g. mRNA), it also encompasses methods of detection based on screening for the protein product of the subject genes. The present invention should also be understood to encompass methods of detection based on identifying both proteins and/or nucleic acid molecules in one or more biological samples. This may be of particular significance to the extent that some of the neoplastic markers of interest may correspond to genes or gene fragments which do not encode a protein product. Accordingly, to the extent that this occurs it would not be possible to test for a protein and the subject marker would have to be assessed on the basis of transcription expression profiles or changes to genomic DNA.

The term “protein” should be understood to encompass peptides, polypeptides and proteins (including protein fragments). The protein may be glycosylated or unglycosylated and/or may contain a range of other molecules fused, linked, bound or otherwise associated to the protein such as amino acids, lipids, carbohydrates or other peptides, polypeptides or proteins.

Reference herein to a “protein” includes a protein comprising a sequence of amino acids as well as a protein associated with other molecules such as amino acids, lipids, carbohydrates or other peptides, polypeptides or proteins.

The proteins encoded by the neoplastic markers of the present invention may be in multimeric form meaning that two or more molecules are associated together. Where the same protein molecules are associated together, the complex is a homomultimer. An example of a homomultimer is a homodimer. Where at least one marker protein is associated with at least one non-marker protein, then the complex is a heteromultimer such as a heterodimer.

Reference to a “fragment” should be understood as a reference to a portion of the subject nucleic acid molecule or protein. This is particularly relevant with respect to screening for modulated RNA levels in stool samples since the subject RNA is likely to have been degraded or otherwise fragmented due to the environment of the gut. One may therefore actually be detecting fragments of the subject RNA molecule, which fragments are identified by virtue of the use of a suitably specific probe.

Reference to the “onset” of a neoplasm, such as adenoma or adenocarcinoma, should be understood as a reference to one or more cells of that individual exhibiting dysplasia. In this regard, the adenoma or adenocarcinoma may be well developed in that a mass of dysplastic cells has developed. Alternatively, the adenoma or adenocarcinoma may be at a very early stage in that only relatively few abnormal cell divisions have occurred at the time of diagnosis. The present invention also extends to the assessment of an individual's predisposition to the development of a neoplasm, such as an adenoma or adenocarcinoma. Without limiting the present invention in any way, changed levels of the neoplastic markers may be indicative of that individual's predisposition to developing a neoplasia, such as the future development of an adenoma or adenocarcinoma or another adenoma or adenocarcinoma.

In yet another related aspect of the present invention, markers have been identified which enable the characterisation of neoplastic tissue of the large intestine in terms of whether it is an adenoma or a cancer. This development now provides a simple yet accurate means of characterising tissue using means other than the traditional methods which are currently utilised.

According to this aspect of the present invention, there is provided a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200600_at 204006_s_at 213428_s_at 200665_s_at 204051_s_at 213524_s_at 200832_s_at 204122_at 213869_x_at 200974_at 204320_at 213905_x_at 200986_at 204475_at 214247_s_at 201058_s_at 204620_s_at 215049_x_at 201069_at 205479_s_at 215076_s_at 201105_at 205547_s_at 215646_s_at 201141_at 205828_at 216442_x_at 201147_s_at 207173_x_at 217430_x_at 201150_s_at 207191_s_at 217762_s_at 201162_at 208747_s_at 217763_s_at 201163_s_at 208782_at 217764_s_at 201185_at 208788_at 218468_s_at 201261_x_at 208850_s_at 218469_at 201289_at 208851_s_at 218559_s_at 201426_s_at 209101_at 218638_s_at 201438_at 209156_s_at 219087_at 201616_s_at 209218_at 221011_s_at 201645_at 209395_at 221729_at 201667_at 209396_s_at 221730_at 201744_s_at 209596_at 221731_x_at 201792_at 209875_s_at 37892_at 201842_s_at 209955_s_at 223122_s_at 201852_x_at 210095_s_at 223235_s_at 201859_at 210495_x_at 224560_at 201893_x_at 210511_s_at 224694_at 202237_at 210764_s_at 224724_at 202238_s_at 210809_s_at 225664_at 202283_at 211161_s_at 225681_at 202291_s_at 211571_s_at 225710_at 202310_s_at 211719_x_at 225799_at 202311_s_at 211813_x_at 226237_at 202403_s_at 211896_s_at 226311_at 202404_s_at 211959_at 226694_at 202450_s_at 211964_at 226777_at 202620_s_at 211966_at 226930_at 202766_s_at 211980_at 227099_s_at 202859_x_at 211981_at 227140_at 202878_s_at 212077_at 227566_at 202917_s_at 212344_at 229218_at 202998_s_at 212353_at 229802_at 203083_at 212354_at 231579_s_at 203325_s_at 212464_s_at 231766_s_at 203382_s_at 212488_at 231879_at 203477_at 212489_at 232458_at 203570_at 212667_at 233555_s_at 203645_s_at 213125_at 234994_at; and/or 203878_s_at (ii) COL1A2 LGALS1 SRGN CTHRC1 ELOVL5 LBH FN1 MGP CTGF POSTN MMP2 TNC SPP1 LOXL2 G0S2 MMP1 MYL9 SQLE SPARC DCN EFEMP1 LUM CALD1 APOE GREM1 FBN1 MSN IL8 MMP3 IGFBP3 IGFBP5 IGFBP7 SERPINF1 SFRP2 FSTL1 ISLR SULF1 COL4A2 HNT ASPN VCAN COL5A1 COL6A3 SMOC2 OLFML2B COL8A1 HTRA1 KIAA1913 COL12A1 CYR61 PALM2-AKAP2 COL5A2 FAP SERPING1 CDH11 VIM TYROBP THBS2 TIMP2 ACTA2 COL15A1 SCD COL3A1 COL11A1 TIMP3 PLOD2 S100A8 AEBP1 MMP11 FNDC1 GJA1 CD163 SFRP4 NNMT FCGR3B INHBA COL1A1 PLAU COL6A2 SULF2 MAFB ANTXR1 COL6A1 LOC541471 GPNMB SPON2 LOC387763 BGN CTSK CHI3L1 TAGLN MXRA5 THY1 COL4A1 C1S LOXL1 RAB31 DKK3 CD93 in said cell or cellular population wherein a lower level of expression of the genes of group (i) and/or group (ii) relative to a gastrointestinal cancer control level is indicative of an adenoma cell or a cell predisposed to the onset of an adenoma state.

In another aspect there is provided a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200884_at 214234_s_at 226248_s_at 203240_at 214235_at 226302_at 203963_at 214433_s_at 227676_at 204508_s_at 215125_s_at 227719_at 204607_at 215867_x_at 227725_at 204811_s_at 217109_at 228232_s_at 204895_x_at 217110_s_at 229070_at 204897_at 218211_s_at 231832_at 205259_at 219543_at 232176_at 205765_at 219955_at 232481_s_at 205927_s_at 221841_s_at 235976_at 208063_s_at 221874_at 236894_at 208937_s_at 223969_s_at 237521_x_at 210107_at 223970_at 242601_at; and/or 213106_at (ii) CLCA1 CTSE ATP8B1 FCGBP C6orf105 CACNA2D2 HMGCS2 CKB KLF4 RETNLB ATP8A1 CYP3A5P2 L1TD1 MUC4 CAPN9 SLITRK6 UGT1A1 NR3C2 VSIG2 SELENBP1 PBLD LOC253012 PTGER4 CA12 ST6GALNAC1 MLPH WDR51B ID1 KIAA1324 FAM3D CYP3A5 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to a gastrointestinal adenoma control level is indicative of a cancer or a cell predisposed to the onset of a cancerous state.

Preferably, said gastrointestinal tissue is colorectal tissue.

In one embodiment, said expression is assessed by screening for DNA changes which impact on methylation, in particular hypermethylation. In another embodiment, expression is assessed by the association of DNA with chromatin proteins carrying repressive modifications, for example, methylation of lysines 9 or 27 of histone H3.

Reference to an “adenoma control level” or “cancer control level” should be understood as a reference to the level of said gene expression in a population of adenoma or cancer gastrointestinal cells, respectively. As discussed hereinbefore in relation to “normal levels”, the subject level may be a discrete level or a range of levels. Accordingly, the definition of “adenoma control level” or “cancer control level” should be understood to have a corresponding definition to “normal level”, albeit in the context of the expression of genes by a neoplastic population of large intestine cells.

In terms of this aspect of the present invention, the subject analysis is performed on a population of neoplastic cells. These cells may be derived in any manner, such as sloughed off neoplastic cells which have been collected via an enema wash or from a gastrointestinal sample, such as a stool sample. Alternatively, the subject cells may have been obtained via a biopsy or other surgical technique.

Without limiting this aspect of the invention in any way, several of the markers of this aspect of the present invention have been determined to be expressed at particularly significant levels below those of neoplastic cells. For example, decreased expression levels of 3 to 9 fold have been observed in respect of the following markers which are indicative of gastrointestinal adenomas, when assessed by the method herein exemplified.

Fold Gene, genes or transcripts Decrease detected by Affymetrix Probe No: Gene 9 202404_s_at COL1A2 8 225681_at CTHRC1 7 212464_s_at FN1 210809_s_at POSTN 6 209875_s_at SPP1 5 221740_at MMP1 204475_at 4 200665_s_at SPARC 201744_s_at LUM 218468_s_at GREM1 202859_x_at IL8 211959_at IGFBP5 3 223122_s_at SFRP2 212353_at SULF1 219087_at ASPN 201438_at COL6A3 226237_at COL8A1 225664_at COL12A1 221730_at COL5A2 207173_x_at CDH11 203083_at THBS2 203477_at COL15A1 37892_at COL11A1 202917_s_at S100A8 226930_at FNDC1 204051_s_at SFRP4 210511_s_at INHBA 209156_s_at COL6A2 224694_at ANTXR1 201141_at GPNMB 213905_x_at BGN 205547_s_at TAGLN

In another example, decreased expression levels of between 3 to 5 fold have been observed in respect of the following markers which are indicative of gastrointestinal cancers, when assessed by the method herein exemplified.

Fold Gene, genes or transcripts Decrease detected by Affymetrix Probe No: Gene 5 210107_at CLCA1 3 203240_at FCGBP 204607_at HMGCS2 223969_s_at RETNLB 219955_at L1TD1 232481_s_at SL1TRK6 228232_s_at VSIG2 242601_at LOC253012 227725_at ST6GALNAC1

According to this embodiment, there is therefore provided a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene or genes detected by Affymetrix probeset IDs:         202404_s_at, 212464_s_at, 210809_s_a, 225681_at; and/or     -   (ii) COL1A2, CTHRC1, FN1, POSTN         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or group (ii) relative to a gastrointestinal cancer control         level is indicative of an adenoma cell or a cell predisposed to         the onset of an adenoma state.

In another embodiment, there is provided a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 209875_s_at 227140_at 204475_at; and/or

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 209875_s_at 227140_at 204475_at; and/or (ii) SPP1 MMP1 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or group (ii) relative to a gastrointestinal cancer control level is indicative of an adenoma cell or a cell predisposed to the onset of an adenoma state.

Preferably, said gastrointestinal tissue is colorectal tissue.

Still more preferably, said biological sample is a tissue sample.

In another preferred embodiment the present invention is directed to a method of characterising a cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene, genes or transcripts detected by Affymetrix probeset IDs: (i) 200665_s_at 226237_at 226930_at 201744_s_at 225664_at 204051_s_at 218468_s_at 221730_at 210511_s_at 202859_x_at 207173_x_at 209156_s_at 211959_at 203083_at 224694_at 223122_s_at 203477_at 201141_at 212353_at 37892_at 213905_x_at 219087_at 202917_s_at 205547_s_at 201438_at; and/or (ii) SPARC COL8A1 SFRP4 LUM COL12A1 INHBA GREM1 COL5A2 COL6A2 IL8 CDH11 ANTXR1 IGFBP5 THBS2 GPNMB SFRP2 COL15A1 BGN SULF1 COL11A1 TAGLN ASPN S100A8 COL6A3 FNDC1 in a biological sample from said individual wherein a lower level of expression of the genes or transcripts of group (i) and/or (ii) relative to a gastrointestinal cancer control level is indicative of an adenoma or a cell predisposed to the onset of an adenoma state.

In yet another preferred embodiment the present invention is directed to a method of characterising a cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 210107 at; and/or     -   (ii) CLCA1         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or (ii) relative to a gastrointestinal adenoma control level         is indicative of a cancer or a cell predisposed to the onset of         a cancerous state.

In still yet another preferred embodiment the present invention is directed to a method of characterising a cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

-   -   (i) the gene, genes or transcripts detected by Affymetrix         probeset IDs: 203240_at, 204607_at, 223969 s_at, 219955_at,         232481_s_at, 242601_at, 227725_at, 228232.s_s_at; and/or     -   (ii) FCGBP, HMGCS2, RETNLB, L1TD1, SLITRK6, VSIG2, LOC253012,         ST6GALNAC1         in a biological sample from said individual wherein a lower         level of expression of the genes or transcripts of group (i)         and/or (ii) relative to a gastrointestinal adenoma control level         is indicative of a cancer or a cell predisposed to the onset of         a cancerous state.

Preferably, said gastrointestinal tissue is colorectal tissue.

Even more preferably, said biological sample is a tissue sample.

In still another related aspect it has been determined that a subset of the markers of this aspect of the present invention are useful as qualitative markers of neoplastic tissue characterisation in that these markers, if not detectable at levels substantially above background levels in neoplastic tissue are indicative of cancerous tissue.

According to this aspect, the present invention provides a method of characterising a neoplastic cell or cellular population, which cell or cellular population is derived from the large intestine of an individual, said method comprising assessing the level of expression of one or more genes or transcripts selected from:

the gene or genes detected by Affymetrix probeset IDs: (i) 235976_at 236894_at 237521; and/or (ii) SLURK6 L1TD1 in a biological sample from said individual wherein expression of the genes or transcripts of group (i) and/or (ii) at a level which is not substantially greater than background neoplastic tissue levels is indicative of a cancer or a cell predisposed to the onset of a cancerous state.

Preferably, said gastrointestinal tissue is colorectal tissue.

Still more preferably, said biological sample is a tissue sample.

In a most preferred embodiment, the methods of the present invention are preferably directed to screening for proteins encoded by the markers of the present invention or changes to DNA methylation of genomic DNA. In another embodiment, expression is assessed by the association of DNA with chromatin proteins carrying repressive modifications, for example, methylation of lysines 9 or 27 of histone H3.

Although the preferred method is to detect the expression product or DNA changes of the neoplastic markers for the purpose of diagnosing neoplasia development or predisposition thereto, the detection of converse changes in the levels of said markers may be desired under certain circumstances, for example, to monitor the effectiveness of therapeutic or prophylactic treatment directed to modulating a neoplastic condition, such as adenoma or adenocarcinoma development. For example, where reduced expression of the subject markers indicates that an individual has developed a condition characterised by adenoma or adenocarcinoma development, for example, screening for an increase in the levels of these markers subsequently to the onset of a therapeutic regime may be utilised to indicate reversal or other form of improvement of the subject individual's condition.

The method of the present invention is therefore useful as a one off test or as an on-going monitor of those individuals thought to be at risk of neoplasia development or as a monitor of the effectiveness of therapeutic or prophylactic treatment regimes directed to inhibiting or otherwise slowing neoplasia development. In these situations, mapping the modulation of neoplastic marker expression levels in any one or more classes of biological samples is a valuable indicator of the status of an individual or the effectiveness of a therapeutic or prophylactic regime which is currently in use. Accordingly, the method of the present invention should be understood to extend to monitoring for increases or decreases in marker expression levels in an individual relative to their normal level (as hereinbefore defined), background control levels, cancer levels, adenoma levels or relative to one or more earlier marker expression levels determined from a biological sample of said individual.

Means of assessing the subject expressed neoplasm markers in a biological sample can be achieved by any suitable method, which would be well known to the person of skill in the art. To this end, it would be appreciated that to the extent that one is examining either a homogeneous cellular population (such as a tumour biopsy or a cellular population which has been enriched from a heterogeneous starting population) or a tissue section, one may utilise a wide range of techniques such as in situ hybridisation, assessment of expression profiles by microassays, immunoassays and the like (hereinafter described in more detail) to detect the absence of or downregulation of the level of expression of one or more markers of interest. However, to the extent that one is screening a heterogenous cellular population or a bodily fluid in which heterogeneous populations of cells are found, such as a blood sample, the absence of or reduction in level of expression of a particular marker may be undetectable due to the inherent expression of the marker by non-neoplastic cells which are present in the sample. That is, a decrease in the level of expression of a subgroup of cells may not be detectable. In this situation, a more appropriate mechanism of detecting a reduction in a neoplastic subpopulation of the expression levels of one or more markers of the present invention is via indirect means, such as the detection of epigenetic changes.

Without limiting the present invention to any one theory or mode of action, during development gene expression is regulated by processes that alter the availability of genes for expression in different cell lineages without any alteration in gene sequence, and these states can be inherited through a cell division—a process called epigenetic inheritance. Epigenetic inheritance is determined by a combination of DNA methylation (modification of cytosine to give 5-methyl cytosine, 5 meC) and by modifications of the histone chromosomal proteins that package DNA. Thus methylation of DNA at CpG sites and modifications such as deacetylation of histone H3 on lysine 9, and methylation on lysine 9 or 27 are associated with inactive chromatin, while the converse state of a lack of DNA methylation, acetylation of lysine 9 of histone H3 is associated with open chromatin and active gene expression. In cancer, this epigenetic regulation of gene expression is frequently found to be disrupted (Esteller & Herman, 2000; Jones & Baylin, 2002). Genes such as tumour suppressor or metastasis suppressor genes are often found to be silenced by DNA methylation, while other genes may be hypomethylated and inappropriately expressed. Thus, among genes that show a decrease or loss of expression in cancer, this is often characterised by methylation of the promoter or regulatory region of the gene.

A variety of methods are available for detection of aberrantly methylated DNA of a specific gene, even in the presence of a large excess of normal DNA (Clark 2007). Thus, loss of expression of a gene which can be difficult to detect at the protein or RNA level except by immunohistochemistry can often be detected in tumour samples and in bodily fluids of cancer patients by the presence of hypermethylated DNA of the gene's promoter. Similarly DNA hypomethylation may be used for the detection of certain genes whose expression is elevated in cancer. Epigenetic alterations and chromatin changes in cancer are also evident in the altered association of modified histones with specific genes (Esteller, 2007); for example repressed genes are often found associated with histone H3 that is deacetylated and methylated on lysine 9. The use of antibodies targeted to altered histones allows for the isolation of DNA 0.15 associated with particular chromatin states and its potential use in cancer diagnosis.

Other methods of detecting changes to gene expression levels, particularly where the subject biological sample is not contaminated with high numbers of non-neoplastic cells, include but are not limited to:

-   -   (i) In vivo detection.         -   Molecular Imaging may be used following administration of             imaging probes or reagents capable of disclosing altered             expression of the markers in the intestinal tissues.         -   Molecular imaging (Moore et al., BBA, 1402:239-249, 1988;             Weissleder et al., Nature Medicine 6:351-355, 2000) is the             in vivo imaging of molecular expression that correlates with             the macro-features currently visualized using “classical”             diagnostic imaging techniques such as X-Ray, computed             tomography (CT), MRI, Positron Emission Tomography (PET) or             endoscopy.     -   (ii) Detection of downregulation of RNA expression in the cells         by Fluorescent In Situ Hybridization (FISH), or in extracts from         the cells by technologies such as Quantitative Reverse         Transcriptase Polymerase Chain Reaction (QRTPCR) or Flow         cytometric qualification of competitive RT-PCR products         (Wedemeyer et al, Clinical Chemistry 48:9 1398-1405, 2002).     -   (iii) Assessment of expression profiles of RNA, for example by         array technologies (Alon et al., Proc. Natl. Acad Sci. USA: 96,         6745-6750, June 1999).

A “microarray” is a linear or multi-dimensional array of preferably discrete tlgions, each having a defined area, formed on the surface of a solid support. The density of the discrete regions on a microarray is determined by the total numbers of target polynucleotides to be detected on the surface of a single solid phase support. As used herein, a DNA microarray is an array of oligonucleotide probes placed onto a chip or other surfaces used to amplify or clone target polynucleotides. Since the position of each particular group of probes in the array is known, the identities of the target polynucleotides can be determined based on their binding to a particular position in the microarray.

Recent developments in DNA microarray technology make it possible to conduct a large scale assay of a plurality of target nucleic acid molecules on a single solid phase support. U.S. Pat. No. 5,837,832 (Chee at al.) and related patent applications describe immobilizing an array of oligonucleotide probes for hybridization and detection of specific nucleic acid sequences in a sample. Target polynucleotides of interest isolated from a tissue of interest are hybridized to the DNA chip and the specific sequences detected based on the target polynucleotides' preference and degree of hybridization at discrete probe locations. One important use of arrays is in the analysis of differential gene expression, where the profile of expression of genes in different cells or tissues, often a tissue of interest and a control tissue, is compared and any differences in gene expression among the respective tissues are identified. Such information is useful for the identification of the types of genes expressed in a particular tissue type and diagnosis of conditions based on the expression profile.

In one example, RNA from the sample of interest is subjected to reverse transcription to obtain labelled cDNA. See U.S. Pat. No. 6,410,229 (Lockhart at al.) The cDNA is then hybridized to oligonucleotides or cDNAs of known sequence arrayed on a chip or other surface in a known order. In another example, the RNA is isolated from a biological sample and hybridised to a chip on which are anchored cDNA probes. The location of the oligonucleotide to which the labelled cDNA hybridizes provides sequence information on the cDNA, while the amount of labelled hybridized RNA or cDNA provides an estimate of the relative representation of the RNA or cDNA of interest. See Schena, et al. Science 270:467-470 (1995). For example, use of a cDNA microarray to analyze gene expression patterns in human cancer is described by DeRisi, et al. (Nature Genetics 14:457-460 (1996)).

In a preferred embodiment, nucleic acid probes corresponding to the subject nucleic acids are made. The nucleic acid probes attached to the biochip are designed to be substantially complementary to the nucleic acids of the biological sample such that specific hybridization of the target sequence and the probes of the present invention occurs. This complementarity need not be perfect, in that there may be any number of base pair mismatches that will interfere with hybridization between the target sequence and the single stranded nucleic acids of the present invention. It is expected that the overall homology of the genes at the nucleotide level probably will be about 40% or greater, probably about 60% or greater, and even more probably about 80% or greater, and in addition that there will be corresponding contiguous sequences of about 8-12 nucleotides or longer. However, if the number of mutations is so great that no hybridization can occur under even the least stringent of hybridization conditions, the sequence is not a complementary target sequence. Thus, by “substantially complementary” herein is meant that the probes are sufficiently complementary to the target sequences to hybridize under normal reaction conditions, particularly high stringency conditions.

A nucleic acid probe is generally single stranded but can be partly single and partly double stranded. The strandedness of the probe is dictated by the structure, composition, and properties of the target sequence. In general, the oligonucleotide probes range from about 6, 8, 10, 12, 15, 20, 30 to about 100 bases long, with from about 10 to about 80 bases being preferred, and from about 15 to about 40 bases being particularly preferred. That is, generally entire genes are rarely used as probes. In some embodiments, much longer nucleic acids can be used, up to hundreds of bases. The probes are sufficiently specific to hybridize to a complementary template sequence under conditions known by those of skill in the art. The number of mismatches between the probe's sequences and their complementary template (target) sequences to which they hybridize during hybridization generally do not exceed 15%, usually do not exceed 10% and preferably do not exceed 5%, as-determined by BLAST (default settings).

Oligonucleotide probes can include the naturally-occurring heterocyclic bases normally found in nucleic acids (uracil, cytosine, thymine, adenine and guanine), as well as modified bases and base analogues. Any modified base or base analogue compatible with hybridization of the probe to a target sequence is useful in the practice of the invention. The sugar or glycoside portion of the probe can comprise deoxyribose, ribose, and/or modified forms of these sugars, such as, for example, 2′-O-alkyl ribose. In a preferred embodiment, the sugar moiety is 2′-deoxyribose; however, any sugar moiety that is compatible with the ability of the probe to hybridize to a target sequence can be used.

In one embodiment, the nucleoside units of the probe are linked by a phosphodiester backbone, as is well known in the art. In additional embodiments, internucleotide linkages can include any linkage known to one of skill in the art that is compatible with specific hybridization of the probe including, but not limited to phosphorothioate, methylphosphonate, sulfamate (e.g., U.S. Pat. No. 5,470,967) and polyamide (i.e., peptide nucleic acids). Peptide nucleic acids are described in Nielsen et al. (1991) Science 254: 1497-1500, U.S. Pat. No. 5,714,331, and Nielsen (1999) Curr. Opin. Biotechnol. 10:71-75.

In certain embodiments, the probe can be a chimeric molecule; i.e., can comprise more than one type of base or sugar subunit, and/or the linkages can be of more than one type within the same primer. The probe can comprise a moiety to facilitate hybridization to its target sequence, as are known in the art, for example, intercalators and/or minor groove binders. Variations of the bases, sugars, and internucleoside backbone, as well as the presence of any pendant group on the probe, will be compatible with the ability of the probe to bind, in a sequence-specific fashion, with its target sequence. A large number of structural modifications, are possible within these bounds. Advantageously, the probes according to the present invention may have structural characteristics such that they allow the signal amplification, such structural characteristics being, for example, branched DNA probes as those described by Urdea et al. (Nucleic Acids Symp. Ser., 24:197-200 (1991)) or in the European Patent No. EP-0225,807. Moreover, synthetic methods for preparing the various heterocyclic bases, sugars, nucleosides and nucleotides that form the probe, and preparation of oligonucleotides of specific predetermined sequence, are well-developed and known in the art. A preferred method for oligonucleotide synthesis incorporates the teaching of U.S. Pat. No. 5,419,966.

Multiple probes may be designed for a particular target nucleic acid to account for polymorphism and/or secondary structure in the target nucleic acid, redundancy of data and the like. In some embodiments, where more than one probe per sequence is used, either overlapping probes or probes to different sections of a single target gene are used. That is, two, three, four or more probes, are used to build in a redundancy for a particular target. The probes can be overlapping (i.e. have some sequence in common), or are specific for distinct sequences of a gene. When multiple target polynucleotides are to be detected according to the present invention, each probe or probe group corresponding to a particular target polynucleotide is situated in a discrete area of the microarray.

Probes may be in solution, such as in wells or on the surface of a micro-array, or attached to a solid support. Examples of solid support materials that can be used include a plastic, a ceramic, a metal, a resin, a gel and a membrane. Useful types of solid supports include plates, beads, magnetic material, microbeads, hybridization chips, membranes, crystals, ceramics and self-assembling monolayers. One example comprises a two-dimensional or three-dimensional matrix, such as a gel or hybridization chip with multiple probe binding sites (Pevzner at al, J. Biomol. Struc. & Dyn. 9:399-410, 1991; Maskos and Southern, Nuc. Acids Res. 20:1679-84, 1992). Hybridization chips can be used to construct very large probe arrays that are subsequently hybridized with a target nucleic acid. Analysis of the hybridization pattern of the chip can assist in the identification of the target nucleotide sequence. Patterns can be manually or computer analyzed, but it is clear that positional sequencing by hybridization lends itself to computer analysis and automation. In another example, one may use an Affymetrix chip on a solid phase structural support in combination with a fluorescent bead based approach. In yet another example, one may utilise a cDNA microarray. In this regard, the oligonucleotides described by Lockkart et al (i.e. Affymetrix synthesis probes in situ on the solid phase) are particularly preferred, that is, photolithography.

As will be appreciated by those in the art, nucleic acids can be attached or immobilized to a solid support in a wide variety of ways. By “immobilized” herein is meant the association or binding between the nucleic acid probe and the solid support is sufficient to be stable under the conditions of binding, washing, analysis, and removal. The binding can be covalent or non-covalent. By “non-covalent binding” and grammatical equivalents herein is meant one or more of either electrostatic, hydrophilic, and hydrophobic interactions. Included in non-covalent binding is the covalent attachment of a molecule, such as streptavidin, to the support and the non-covalent binding of the biotinylated probe to the streptavidin. By “covalent binding” and grammatical equivalents herein is meant that the two moieties, the solid support and the probe, are attached by at least one bond, including sigma bonds, pi bonds and coordination bonds. Covalent bonds can be formed directly between the probe and the solid support or can be formed by a cross linker or by inclusion of a specific reactive group on either the solid support or the probe or both molecules. Immobilization may also involve a combination of covalent and non-covalent interactions.

Nucleic acid probes may be attached to the solid support by covalent binding such as by conjugation with a coupling agent or by covalent or non-covalent binding such as electrostatic interactions, hydrogen bonds or antibody-antigen coupling, or by combinations thereof. Typical coupling agents include biotin/avidin, biotin/streptavidin, Staphylococcus aureus protein A/IgG antibody P, fragment, and streptavidin/protein A chimeras (T. Sano and C. R. Cantor, Bio/Technology 9:1378-81 (1991)), or derivatives or combinations of these agents. Nucleic acids may be attached to the solid support by a photocleavable bond, an electrostatic bond, a disulfide bond, a peptide bond, a diester bond or a combination of these sorts of bonds. The array may also be attached to the solid support by a selectively releasable bond such as 4,4′-dimethoxytrityl or its derivative. Derivatives which have been found to be useful include 3 or 4 [bis-(4-methoxyphenyl)]-methyl-benzoic acid, N-succinimidyl-3 or 4 [bis-(4-methoxyphenyl)]-methyl-benzoic acid, N-succinimidyl-3 or 4 [bis-(4-methoxyphenyl)]-hydroxymethyl-benzoic acid, N-succinimidyl-3 or 4 [bis-(4-methoxyphenyl)]-chloromethyl-benzoic acid, and salts of these acids.

In general, the probes are attached to the biochip in a wide variety of ways, as will be appreciated by those in the art. As described herein, the nucleic acids can either be synthesized first, with subsequent attachment to the biochip, or can be directly synthesized on the biochip.

The biochip comprises a suitable solid substrate. By “substrate” or “solid support” or other grammatical equivalents herein is meant any material that can be modified to contain discrete individual sites appropriate for the attachment or association of the nucleic acid probes and is amenable to at least one detection method. The solid phase support of the present invention can be of any solid materials and structures suitable for supporting nucleotide hybridization and synthesis. Preferably, the solid phase support comprises at least one substantially rigid surface on which the primers can be immobilized and the reverse transcriptase reaction performed. The substrates with which the polynucleotide microarray elements are stably associated and may be fabricated from a variety of materials, including plastics, ceramics, metals, acrylamide, cellulose, nitrocellulose, glass, polystyrene, polyethylene vinyl acetate, polypropylene, polymethacrylate, polyethylene, polyethylene oxide, polysilicates, polycarbonates, Teflon, fluorocarbons, nylon, silicon rubber, polyanhydrides, polyglycolic acid, polylactic acid, polyorthoesters, polypropylfumerate, collagen, glycosaminoglycans, and polyamino acids. Substrates may be two-dimensional or three-dimensional in form, such as gels, membranes, thin films, glasses, plates, cylinders, beads, magnetic beads, optical fibers, woven fibers, etc. A preferred form of array is a three-dimensional array. A preferred three-dimensional array is a collection of tagged beads. Each tagged bead has different primers attached to it Tags are detectable by signalling means such as color (Luminex, Illumina) and electromagnetic field (Pharmaseq) and signals on tagged beads can even be remotely detected (e.g., using optical fibers). The size of the solid support can be any of the standard microarray sizes, useful for DNA microarray technology, and the size may be tailored to fit the particular machine being used to conduct a reaction of the invention. In general, the substrates allow optical detection and do not appreciably fluoresce.

In one embodiment, the surface of the biochip and the probe may be derivatized with chemical functional groups for subsequent attachment of the two. Thus, for example, the biochip is derivatized with a chemical functional group including, but not limited to, amino groups, carboxy groups, oxo groups and thiol groups, with amino groups being particularly preferred. Using these functional groups, the probes can be attached using functional groups on the probes. For example, nucleic acids containing amino groups can be attached to surfaces comprising amino groups, for example using linkers as are known in the art; for example, homo- or hetero-bifunctional linkers as are well known. In addition, in some cases, additional linkers, such as alkyl groups (including substituted and heteroalkyl groups) may be used.

In this embodiment, the oligonucleotides are synthesized as is known in the art, and then attached to the surface of the solid support. As will be appreciated by those skilled in the art, either the 5′ or 3′ terminus may be attached to the solid support, or attachment may be via an internal nucleoside. In an additional embodiment, the immobilization to the solid support may be very strong, yet non-covalent. For example, biotinylated oligonucleotides can be made, which bind to surfaces covalently coated with streptavidin, resulting in attachment.

The arrays may be produced according to any convenient methodology, such as preforming the polynucleotide microarray elements and then stably associating them with the surface. Alternatively, the oligonucleotides may be synthesized on the surface, as is known in the art. A number of different array configurations and methods for their production are known to those of skill in the art and disclosed in WO 95/25116 and WO 95/35505 (photolithographic techniques), U.S. Pat. No. 5,445,934 (in situ synthesis by photolithography), U.S. Pat. No. 5,384,261 (in situ synthesis by mechanically directed flow paths); and U.S. Pat. No. 5,700,637 (synthesis by spotting, printing or coupling); the disclosure of which are herein incorporated in their entirety by reference. Another method for coupling DNA to beads uses specific ligands attached to the end of the DNA to link to ligand-binding molecules attached to a bead. Possible ligand-binding partner pairs include biotin-avidin/streptavidin, or various antibody/antigen pairs such as digoxygenin-antidigoxygenin antibody (Smith et al., Science 258:1122-1126 (1992)). Covalent chemical attachment of DNA to the support can be accomplished by using standard coupling agents to link the 5′-phosphate on the DNA to coated microspheres through a phosphoamidate bond. Methods for immobilization of oligonucleotides to solid-state substrates are well established. See Pease et al., Proc. Natl. Acad. Sci. USA 91(11):5022-5026 (1994). A preferred method of attaching oligonucleotides to solid-state substrates is described by Guo at al., Nucleic Acids Res. 22:5456-5465 (1994). Immobilization can be accomplished either by in situ DNA synthesis (Maskos and Southern, supra) or by covalent attachment of chemically synthesized oligonucleotides (Guo at al., supra) in combination with robotic arraying technologies.

In addition to the solid-phase technology represented by biochip arrays, gene expression can also be quantified using liquid-phase arrays. One such system is kinetic polymerase chain reaction (PCR). Kinetic PCR allows for the simultaneous amplification and quantification of specific nucleic acid sequences. The specificity is derived from synthetic oligonucleotide primers designed to preferentially adhere to single-stranded nucleic acid sequences bracketing the target site. This pair of oligonucleotide primers form specific, non-covalently bound complexes on each strand of the target sequence. These complexes facilitate in vitro transcription of double-stranded DNA in opposite orientations. Temperature cycling of the reaction mixture creates a continuous cycle of primer binding, transcription, and re-melting of the nucleic acid to individual strands. The result is an exponential increase of the target dsDNA product. This product can be quantified in real time either through the use of an intercalating dye or a sequence specific probe. SYBR(r) Green 1, is an example of an intercalating dye, that preferentially binds to dsDNA resulting in a concomitant increase in the fluorescent signal. Sequence specific probes, such as used with TaqMan technology, consist of a fluorochrome and a quenching molecule covalently bound to opposite ends of an oligonucleotide. The probe is designed to selectively bind the target DNA sequence between the two primers. When the DNA strands are synthesized during the PCR reaction, the fluorochrome is cleaved from the probe by the exonuclease activity of the polymerase resulting in signal dequenching. The probe signalling method can be more specific than the intercalating dye method, but in each case, signal strength is proportional to the dsDNA product produced. Each type of quantification method can be used in multi-well liquid phase arrays with each well representing primers and/or probes specific to nucleic acid sequences of interest. When used with messenger RNA preparations of tissues or cell lines, an array of probe/primer reactions can simultaneously quantify the expression of multiple gene products of interest. See Germer et al., Genome Res. 10:258-266 (2000); Heid at al., Genome Res. 6:986-994 (1996).

-   -   (iv) Measurement of altered neoplastic marker protein levels in         cell extracts, for example by immunoassay.

Testing for proteinaceous neoplastic marker expression product in a biological sample can be performed by any one of a number of suitable methods which are well known to those skilled in the art. Examples of suitable methods include, but are not limited to, antibody screening of tissue sections, biopsy specimens or bodily fluid samples.

To the extent that antibody based methods of diagnosis are used, the presence of the marker protein may be determined in a number of ways such as by Western blotting, ELISA or flow cytometry procedures. These, of course, include both single-site and two-site or “sandwich” assays of the non-competitive types, as well as in the traditional competitive binding assays. These assays also include direct binding of a labelled antibody to a target.

Sandwich assays are a useful and commonly used assay. A number of variations of the sandwich assay technique exist, and all are intended to be encompassed by the present invention. Briefly, in a typical forward assay, an unlabelled antibody is immobilized on a solid substrate and the sample to be tested brought into contact with the bound molecule. After a suitable period of incubation, for a period of time sufficient to allow formation of an antibody-antigen complex, a second antibody specific to the antigen, labelled with a reporter molecule capable of producing a detectable signal is then added and incubated, allowing time sufficient for the formation of another complex of antibody-antigen-labelled antibody. Any unreacted material is washed away, and the presence of the antigen is determined by observation of a signal produced by the reporter molecule. The results may either be qualitative, by simple observation of the visible signal, or may be quantitated by comparing with a control sample. Variations on the forward assay include a simultaneous assay, in which both sample and labelled antibody are added simultaneously to the bound antibody. These techniques are well known to those skilled in the art, including any minor variations as will be readily apparent.

In the typical forward sandwich assay, a first antibody having specificity for the marker or antigenic parts thereof; is either covalently or passively bound to a solid surface. The solid surface is typically glass or a polymer, the most commonly used polymers being cellulose, polyacrylamide, nylon, polystyrene, polyvinyl chloride or polypropylene. The solid supports may be in the form of tubes, beads, discs of microplates, or any other surface suitable for conducting an immunoassay. The binding processes are well-known in the art and generally consist of cross-linking, covalently binding or physically adsorbing, the polymer-antibody complex is washed in preparation for the test sample. An aliquot of the sample to be tested is then added to the solid phase complex and incubated for a period of time sufficient (e.g. 2-40 minutes) and under suitable conditions (e.g. 25′C) to allow binding of any subunit present in the antibody. Following the incubation period, the antibody subunit solid phase is washed and dried and incubated with a second antibody specific for a portion of the antigen. The second antibody is linked to a reporter molecule which is used to indicate the binding of the second antibody to the antigen.

An alternative method involves immobilizing the target molecules in the biological sample and then exposing the immobilized target to specific antibody which may or may not be labelled with a reporter molecule. Depending on the amount of target and the strength of the reporter molecule signal, a bound target may be detectable by direct labelling with the antibody. Alternatively, a second labelled antibody, specific to the first antibody is exposed to the target-first antibody complex to form a target-first antibody-second antibody tertiary complex. The complex is detected by the signal emitted by the reporter molecule.

By “reporter molecule” as used in the present specification, is meant a molecule which, by its chemical nature, provides an analytically identifiable signal which allows the detection of antigen-bound antibody. Detection may be either qualitative or quantitative. The most commonly used reporter molecules in this type of assay are either enzymes, fluorophores or radionuclide containing molecules (i.e. radioisotopes) and chemiluminescent molecules.

In the case of an enzyme immunoassay, an enzyme is conjugated to the second antibody, generally by means of glutaraldehyde or periodate. As will be readily recognized, however, a wide variety of different conjugation techniques exist, which are readily available to the skilled artisan. Commonly used enzymes include horseradish peroxidase, glucose oxidase, beta-galactosidase and alkaline phosphatase, amongst others. The substrates to be used with the specific enzymes are generally chosen for the production, upon hydrolysis by the corresponding enzyme, of a detectable color change. Examples of suitable enzymes include alkaline phosphatase and peroxidase. It is also possible to employ fluorogenic substrates, which yield a fluorescent product rather than the chromogenic substrates noted above. In all cases, the enzyme-labelled antibody is added to the first antibody hapten complex, allowed to bind, and then the excess reagent is washed away. A solution containing the appropriate substrate is then added to the complex of antibody-antigen-antibody. The substrate will react with the enzyme linked to the second antibody, giving a qualitative visual signal, which may be further quantitated, usually spectrophotometrically, to give an indication of the amount of antigen which was present in the sample. “Reporter molecule” also extends to use of cell agglutination or inhibition of agglutination such as red blood cells on latex beads, and the like.

Alternately, fluorescent compounds, such as fluorecein and rhodamine, may be chemically coupled to antibodies without altering their binding capacity. When activated by illumination with light of a particular wavelength, the fluorochrome-labelled antibody adsorbs the light energy, inducing a state to excitability in the molecule, followed by emission of the light at a characteristic color visually detectable with a light microscope. As in the EIA, the fluorescent labelled antibody is allowed to bind to the first antibody-hapten complex. After washing off the unbound reagent, the remaining tertiary complex is then exposed to the light of the appropriate wavelength the fluorescence observed indicates the presence of the hapten of interest. Immunofluorescence and EIA techniques are both very well established in the art and are particularly preferred for the present method. However, other reporter molecules, such as radioisotope, chemiluminescent or bioluminescent molecules, may also be employed.

-   -   (v) Determining altered expression of protein neoplastic markers         on the cell surface, for example by immunohistochemistry.     -   (vi) Determining altered protein expression based on any         suitable functional test, enzymatic test or immunological test         in addition to those detailed in points (iv) and (v) above.

A person of ordinary skill in the art could determine, as a matter of routine procedure, the appropriateness of applying a given method to a particular type of biological sample.

Without limiting the present invention in any way, and as detailed above, gene expression levels can be measured by a variety of methods known in the art. For example, gene transcription or translation products can be measured. Gene transcription products, i.e., RNA, can be measured, for example, by hybridization assays, run-off assays., Northern blots, or other methods known in the art.

Hybridization assays generally involve the use of oligonucleotide probes that hybridize to the single-stranded RNA transcription products. Thus, the oligonucleotide probes are complementary to the transcribed RNA expression product. Typically, a sequence-specific probe can be directed to hybridize to RNA or cDNA. A “nucleic acid probe”, as used herein, can be a DNA probe or an RNA probe that hybridizes to a complementary sequence. One of skill in the art would know how to design such a probe such that sequence specific hybridization will occur. One of skill in the art will further know how to quantify the amount of sequence specific hybridization as a measure of the amount of gene expression for the gene was transcribed to produce the specific RNA.

The hybridization sample is maintained under conditions that are sufficient to allow specific hybridization of the nucleic acid probe to a specific gene expression product. “Specific hybridization”, as used herein, indicates near exact hybridization (e.g., with few if any mismatches). Specific hybridization can be performed under high stringency conditions or moderate stringency conditions. In one embodiment, the hybridization conditions for specific hybridization are high stringency. For example, certain high stringency conditions can be used to distinguish perfectly complementary nucleic acids from those of less complementarity. “High stringency conditions”, “moderate stringency conditions” and “low stringency conditions” for nucleic acid hybridizations are explained on pages 2.10.1-2.10.16 and pages 6.3.1-6.3.6 in Current Protocols in Molecular Biology (Ausubel, F. et al., “Current Protocols in Molecular Biology”, John Wiley & Sons, (1998), the entire teachings of which are incorporated by reference herein). The exact conditions that determine the stringency of hybridization depend not only on ionic strength (e.g., 0.2.times.SSC, 0.1.times.SSC), temperature (e.g., room temperature, 42° C., 68° C.) and the concentration of destabilizing agents such as formamide or denaturing agents such as SDS, but also on factors such as the length of the nucleic acid sequence, base composition, percent mismatch between hybridizing sequences and the frequency of occurrence of subsets of that sequence within other non-identical sequences. Thus, equivalent conditions can be determined by varying one or more of these parameters while maintaining a similar degree of identity or similarity between the two nucleic acid molecules. Typically, conditions are used such that sequences at least about 60%, at least about 70%, at least about 80%, at least about 90% or at least about 95% or more identical to each other remain hybridized to one another. By varying hybridization conditions from a level of stringency at which no hybridization occurs to a level at which hybridization is first observed, conditions that will allow a given sequence to hybridize (e.g., selectively) with the most complementary sequences in the sample can be determined.

Exemplary conditions that describe the determination of wash conditions for moderate or low stringency conditions are described in Kraus, M. and Aaronson, S., 1991. Methods Enzymol., 200:546-556; and in, Ausubel et al., Current Protocols in Molecular Biology, John Wiley & Sons, (1998). Washing is the step in which conditions are usually set so as to determine a minimum level of complementarity of the hybrids. Generally, starting from the lowest temperature at which only homologous hybridization occurs, each ° C. by which the final wash temperature is reduced (holding SSC concentration constant) allows an increase by 1% in the maximum mismatch percentage among the sequences that hybridize. Generally, doubling the concentration of SSC results in an increase in T_(m) of about 17° C. Using these guidelines, the wash temperature can be determined empirically for high, moderate or low stringency, depending on the level of mismatch sought. For example, a low stringency wash can comprise washing in a solution containing 0.2.times.SSC/0.1% SDS for 10 minutes at room temperature; a moderate stringency wash can comprise washing in a pre-warmed solution (42° C.) solution containing 0.2.times.SSC/0.1% SDS for 15 minutes at 42° C.; and a high stringency wash can comprise washing in pre-warmed (68° C.) solution containing 0.1.times.SSC/0.1% SDS for 15 minutes at 68° C. Furthermore, washes can be performed repeatedly or sequentially to obtain a desired result as known in the art. Equivalent conditions can be determined by varying one or more of the parameters given as an example, as known in the art, while maintaining a similar degree of complementarity between the target nucleic acid molecule and the primer or probe used (e.g., the sequence to be hybridized).

A related aspect of the present invention provides a molecular array, which array comprises a plurality of

-   -   (i) nucleic acid molecules comprising a nucleotide sequence         corresponding to any one or more of the neoplastic marker genes         hereinbefore described or a sequence exhibiting at least 80%         identity thereto or a functional derivative, fragment, variant         or homologue of said nucleic acid molecule; or     -   (ii) nucleic acid molecules comprising a nucleotide sequence         capable of hybridising to any one or more of the sequences         of (i) under medium stringency conditions or a functional         derivative, fragment, variant or homologue of said nucleic acid         molecule; or     -   (iii) nucleic acid probes or oligonucleotides comprising a         nucleotide sequence capable of hybridising to any one or more of         the sequences of (i) under medium stringency conditions or a         functional derivative, fragment, variant or homologue of said         nucleic acid molecule; or     -   (iv) probes capable of binding to any one or more of the         proteins encoded by the nucleic acid molecules of (i) or a         derivative, fragment or, homologue thereof

wherein the level of expression of said marker genes of (i) or proteins of (iv) is indicative of the neoplastic state of a cell or cellular subpopulation derived from the large intestine.

Preferably, said percent identity is at least 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99%.

Low stringency includes and encompasses from at least about 1% v/v to at least about 15% v/v formamide and from at least about 1M to at least about 2M salt for hybridisation, and at least about 1M to at least about 2M salt for washing conditions. Alternative stringency conditions may be applied where necessary, such as medium stringency, which includes and encompasses from at least about 16% v/v at least about 30% v/v formamide and from at least about 0.5M to at least about 0.9M salt for hybridisation, and at least about 0.5M to at least about 0.9M salt for washing conditions, or high stringency, which includes and encompasses from at least about 31% v/v to at least about 50% v/v formamide and from at least about 0.01M to at least about 0.15M salt for hybridisation, and at least about 0.01M to at least about 0.15M salt for washing conditions. In general, washing is carried out at T_(m)=69.3+0.41 (G+C) % [19]=−12° C. However, the T_(m) of a duplex DNA decreases by 1° C. with every increase of 1% in the number of mismatched based pairs (Bonner et al (1973) J. Mol. Biol. 81:123).

Preferably, the subject probes are designed to bind to the nucleic acid or protein to which they are directed with a level of specificity which minimises the incidence of non-specific reactivity. However, it would be appreciated that it may not be possible to eliminate all potential cross-reactivity or non-specific reactivity, this being an inherent limitation of any probe based system.

In terms of the probes which are used to detect the subject proteins, they may take any suitable form including antibodies and aptamers.

A library or array of nucleic acid or protein probes provides rich and highly valuable information. Further, two or more arrays or profiles (information obtained from use of an array) of such sequences are useful tools for comparing a test set of results with a reference, such as another sample or stored calibrator. In using an array, individual probes typically are immobilized at separate locations and allowed to react for binding reactions. Primers associated with assembled sets of markers are useful for either preparing libraries of sequences or directly detecting markers from other biological samples.

A library (or array, when referring to physically separated nucleic acids corresponding to at least some sequences in a library) of gene markers exhibits highly desirable properties. These properties are associated with specific conditions, and may be characterized as regulatory profiles. A profile, as termed here refers to a set of members that provides diagnostic information of the tissue from which the markers were originally derived. A profile in many instances comprises a series of spots on an array made from deposited sequences.

A characteristic patient profile is generally prepared by use of an array. An array profile may be compared with one or more other array profiles or other reference profiles. The comparative results can provide rich information pertaining to disease states, developmental state, receptiveness to therapy and other information about the patient.

Another aspect of the present invention provides a diagnostic kit for assaying biological samples comprising an agent for detecting one or more neoplastic marker reagents useful for facilitating the detection by the agent in the first compartment. Further means may also be included, for example, to receive a biological sample. The agent may be any suitable detecting molecule.

The present invention is further described by the following non-limiting examples:

Example 1 Methods and Materials Affymetrix GeneChip Data

Gene expression profiling data and accompanying clinical data was purchased from GeneLogic Inc (Gaithersburg, Md. USA). For each tissue analysed, oligonucleotide microarray data for 44,928 probesets (Affymetrix HGU133A & HGU133B, combined), experimental and clinical descriptors, and digitally archived microscopy images of histological preparations were received. A quality control analysis was performed to remove arrays not meeting essential quality control measures as defined by the manufacturer.

Transcript expression levels were calculated by both Microarray Suite (MAS) 5.0 (Affymetrix) and the Robust Multichip Average (RMA) normalization techniques (Affymetrix. GeneChip expression data analysis fundamentals. Affymetrix, Santa Clara, Calif. USA, 2001; Hubbell at al. Bioinformatics, 18:1585-1592, 2002; Irizarry at al. Nucleic Acid Research, 31, 2003) MAS normalized data was used for performing standard quality control routines and the final data set was normalized with RMA for all subsequent analyses.

Univariate Differential Expression

Differentially expressed gene transcripts were identified using a moderated t-test implemented in the limma library downloaded from the Bioconductor repository for R. (G. K. Smyth. Statistical Applications in Genetics and Molecular Biology, 3(1):Article 3, 2004; G K Smyth. Bioinformatics and Computational Biology Solutions using R and Bioconductor. Springer, New York, 2005). Significance estimates (p-values) were corrected to adjust for multiple hypothesis testing using the Bonferonni correction.

Tissue Specific Expression Patterns

To construct a filter for hypothetically ‘turned off’ gene expression the mean expression level for all 44,928 probesets across the full range of 454 tissues was first estimated. To estimate an expression on/off threshold, the 44,928 mean values were ranked and the expression value equivalent to the 30th percentile across the dataset calculated. This arbitrary threshold was chosen because it was theorized that the majority of transcripts (and presumably more than 30%) in a given specimen should be transcriptionally silenced. Thus this threshold represents a conservative upper bound for what is estimated as non-specific, or background, signal.

Gene Symbol Annotations

To map Affymetrix probeset names to official gene symbols the annotation metadata available from Bioconductor was used. Hgu133plus2 library version 1.16.0, which was assembled using Entrez Gene data downloaded on 15 Mar. 2007, was used.

Estimates of Performance Characteristics

Diagnostic utility for each table of markers shown herein was estimated including: sensitivity, specificity, positive predictive value, negative predictive value, likelihood ratio positive, likelihood ratio negative. These estimates were calculated in the same data used to discover the markers and will therefore potentially overestimate the performance characteristics in future tissue samples. To improve the generalisabilty of the estimates a modified jackknife resampling technique was used to calculate a less biased value for each characteristic.

Results

A range of univariate statistical tests were applied on Affymetrix oligonucleotide microarray data to reveal human genes that could be used to discriminate colorectal neoplastic tissues from non-neoplastic tissues. There were further identified a number of gene transcripts that appear to be useful for differentiating colorectal adenomas from colorectal carcinoma. Also identified were a subset of these transcripts that may have particular diagnostic utility due to the protein products being either secreted or displayed on the cell surface of epithelial cells. Finally, there were identified a further subset of transcripts expressed specifically in neoplastic tissues and at low- or near-background levels in non-neoplastic tissues.

Genes Differentially Expressed in Neoplastic Tissues

From a total GeneChip set of 44,928 probesets it was determined that over 11,000 probesets were differentially expressed by moderated t-test using the limma package in BioConductor (0. K. Smyth, 2004 supra) employing conservative (Bonferroni) multiple test correction. When this list was further filtered to include only those probesets demonstrating a 2-fold or greater mean expression change between the neoplastic and non-neoplastic tissues, 560 probesets were found to be expressed lower in neoplasias relative to normal tissues.

These 560 probesets were annotated using the most recent metadata and annotation packages available for the chips. The 560 underexpressed probesets were mapped to 434 gene symbols.

Δ-expression ProbeSet ID Gene Symbol Maps DOWN 560 434

Hypothetical Markers Specific for Colorectal Neoplasia

While differential gene expression patterns are useful for diagnostic purposes this project also seeks to identify diagnostic proteins shed into the lumen of the gut by neoplastic colorectal epithelia. To discover candidate proteins, the list of differentially expressed transcripts was filtered with a selection criteria aimed at identifying markers specifically turned off in colorectal neoplasia tissues. To identify ‘off’ genes the filter criteria were designed to find genes with i) neoplastic expression levels below a theoretical on/off threshold and ii) normal signals at least 2-fold higher. The expression profile of an example transcript that is ‘turned-off’ in neoplastic tissues is shown in FIG. 1.

Example 2 Probesets Elevated in Non-Neoplasia Relative to Neoplastic Tissues

Differential expression analysis was applied to identify down-regulated probesets in Affymetrix gene chip data measuring RNA concentration in 454 colorectal tissues including 161 adenocarcinoma specimens, 29 adenoma specimens, 42 colitis specimens and 222 non-diseased tissues. Using conservative corrections for multiple hypothesis testing and a 2-fold absolute fold change cut-off it was determined that 560 probesets exhibit a decreased expression level in neoplastic tissues relative to non-neoplastic controls. 560 of these probesets have been mapped to 434 putative gene symbols based on transcript nucleotide sequence.

Validation/Hypothesis Testing

RNA expression levels of these candidates were measured in independently derived clinical specimens. 526 probesets were hybridised to RNA extracts from 68 clinical specimens comprising 19 adenomas, 19 adenocarcinomas, and 30 non-diseased controls using a custom-designed ‘Adenoma Gene Chip’. Thirty-four (34) probesets were not tested as they were not included on the custom design. It was confirmed that 459 of 526 of the target probesets (or directly related probesets with the same gene locus target) were likewise differentially expressed (P<0.05) in these independently-derived tissues. The results of differential expression analysis of these 459 probesets is shown in Table 1.

The 372 of the 434 unique gene loci to which the 560 probesets are understood to hybridise were further tested. The remaining 62 gene symbols were not represented in the validation data. It was observed that 328 of 372 gene symbols were represented in the validation data by at least one differentially expressed probeset and many symbols included multiple probesets against regions across the putative locus. A complete list of probesets that bind to target loci is shown in Table 2.

Conclusion

The candidate probesets and symbols shown in Tables 1 and 2. respectively, are differentially expressed lower in neoplastic colorectal tissues compared to non-neoplastic controls.

Example 3 Probesets Demonstrating a Non-Neoplasia Specific Profile

During analysis of the discovery data, a novel expression profile was observed between neoplastic and non-neoplastic phenotypes. It was hypothesized that a subset of quantitatively differentially expressed probesets are furthermore qualitatively differentially expressed. Such probesets show no evidence of a gene expression activity in neoplastic tissues, i.e. these probesets appear to be expressed above background levels in non-neoplastic tissues only. This observation and the resulting hypothesis are based on two principles:

-   -   1. That the majority of human transcripts that are present on a         genome-wide GeneChip (e.g. U133) will not likely be expressed in         the colorectal mucosa; and     -   2. That microarray binding intensity for such ‘off’ probesets         (to labeled cRNA) will reflect technical assay background, i.e.         non-specific oligonucleotide binding.

To generate a list of non-neoplasia specific probesets the neoplastic intensity of differentially expressed probesets were compared with a hypothetical background signal threshold from across all probesets on the chip. We note that, by design, all probesets in the candidate pool from which the ‘on’ transcripts are chosen are at least two fold over-expressed in the non-diseased tissues relative to diseased tissues. Combined, these criteria yield the subset of differentially expressed transcript species that are specifically expressed in non-neoplastic tissues.

This analysis demonstrated that 42 probesets corresponding to approximately 41 gene loci exhibit a non-neoplasia specific transcription expression profile.

Validation/Hypothesis Testing

The custom gene chip design precludes testing the non-neoplasia-specific probesets using the same principles as used for discovery. In particular, the custom gene chip (by design) does not contain a large pool of probesets anticipated to hybridise to hypothetically ‘off’/‘non-transcribed’ gene transcripts. This is because the custom gene chip design is heavily biased toward differentially expressed transcripts in colorectal neoplastic tissues.

The usual differential expression testing (limma) was therefore applied to these candidate probesets for specifically expressed in non-neoplastic tissues. Of the 37 (of 42) probesets on the custom gene chip, 33 probesets (or probesets which bind to the same locus) were differentially expressed between the 38 neoplastic tissues (adenoma & cancer) and non-neoplastic controls. The results of these validation experiments is shown in Table 3.

It was further aimed to test all probesets which are known to hybridise to the gene loci to which the probesets claimed herein. Of the 41 putative gene loci targeted by the probesets, 33 were present in the validation data. All thirty-three (33) of these 33 (100%) gene symbols demonstrated at least one hybridising probeset which was differentially expressed in the neoplastic tissues. Results for these experiments, including all probesets that bind to each target locus in a differentially expressed manner are shown in Table 4.

Example 4 Materials and Methods for Examples 2 and 3

Gene expression profiling data measured in 454 colorectal tissue specimens including neoplastic, normal and non-neoplastic disease controls was purchased from GeneLogic Inc (Gaithersburg, Md. USA). For each tissue specimen Affymetrix (Santa Clara, Calif. USA) oligonucleotide microarray data totaling 44,928 probesets (HGU133A & HGU133B, combined), experimental and clinical descriptors, and digitally archived microscopy images of histological preparations was received. Prior to applying discovery methods to these data, extensive quality control methods, including statistical exploration, review of clinical records for consistency and histopathology audit of a random sample of arrays was carried out. Microarrays that did not meet acceptable quality criteria were removed from the analysis.

Hypothesis Testing

Candidate transcription biomarkers were tested using a custom oligonucleotide microarray of 25-mer oligonucleotide probesets designed to hybridise to candidate RNA transcripts identified during discovery. Differential expression hypotheses were tested using RNA extracts derived from independently collected clinical samples comprising 30 normal colorectal tissues, 19 colorectal adenoma tissues, and 19 colorectal adenocarcinoma tissues. Bach RNA extract was confirmed to meet strict quality control criteria.

Colorectal Tissue Specimens

All tissues used for hypothesis testing were obtained from a tertiary referral hospital tissue bank in metropolitan Adelaide, Australia (Repatriation General Hospital and Flinders Medical Centre). Access to the tissue bank for this research was approved by the Research and Ethics Committee of the Repatriation General Hospital and the Ethics Committee of Flinders Medical Centre. Informed patient consent was received for each tissue studied.

Following surgical resection, specimens were placed in a sterile receptacle and collected from theatre. The time from operative resection to collection from theatre was variable but not more than 30 minutes. Samples, approximately 125 mm3 (5×5×5 mm) in size, were taken from the macroscopically normal tissue as far from pathology as possible, defined both by colonic region as well as by distance either proximal or distal to the pathology. Tissues were placed in cryovials, then immediately immersed in liquid nitrogen and stored at −150° C. until processing.

RNA Extraction

RNA extractions were performed using Trizol® reagent (Invitrogen, Carlsbad, Calif., USA) as per manufacturer's instructions. Each sample was homogenised in 300 μL of Trizol reagent using a modified Dremel drill and sterilised disposable pestles. Additional 200 μL of Trizol reagent was added to the homogenate and samples were incubated at RT for 10 minutes. 100 μL of chloroform was then added, samples were shaken vortexed for 15 seconds, and incubated at RT for 3 further minutes. The aqueous phase containing target RNA was obtained by centrifugation at 12,000 rpm for 15 min, 40° C. RNA was then precipitated by incubating samples at RT for 10 min with 250μL of isopropanol. Purified RNA precipitate was collected by centrifugation at 12,000 rpm for 10 minutes, 40° C. and supernatants were discarded. Pellets were then washed with 1 mL 75% ethanol, followed by vortexing and centrifugation at 7,500 g for 8 min, 40° C. Finally, pellets were air-dried for 5 min and resuspended in 80 μL of RNase free water. To improve subsequent solubility samples were incubated at 55° C. for 10 min. RNA was quantified by measuring the optical density at A260/280 nm. RNA quality was assessed by electrophoresis on a 1.2% agarose formaldehyde gel.

Gene Chip Processing

To test hypotheses related to biomarker candidates for colorectal neoplasia RNA extracts were assayed using a custom GeneChip designed by us in collaboration with Affymetrix (Santa Clara, Calif. USA). These custom GeneChips were processed using the standard Affymetrix protocol developed for the HU Gene ST 1.0 array described in (Affy:WTAssay).

Statistical Software and Data Processing

The R statistics environment R and BioConductor libraries (BioConductor, www.bioconductor.org) (BIOC) was used for most analyses. To map probeset IDs to gene symbol on the Custom GeneChip hgu133plus2 library version 2.2.0 was used which was assembled using Entrez Gene data downloaded on Apr. 18 12:30:55 2008 (BIOC).

Hypothesis Testing of Differentially Expressed Biomarkers

To assess differential expression between tissue classes the Student's t test for equal means between two samples or the robust variant provided by the limma library (Smyth)(limma) was used. To mitigate the impact of false discovery due to multiple hypothesis testing, a Bonferroni adjustment to P values in the discovery process (MHT:Bonf) was applied. For hypotheses testing the slightly less conservative multiple hypothesis testing correction of Benjamini & Hochberg, which aims to control the false discovery rate of solutions (MHT:BH), was applied.

Discovery of Tissue-Specific Gene Expression Patterns

Discovery methods using gene expression data often yield numerous candidates, many of which are not suitable for commercial products because they involve subtle gene expression differences that would be difficult to detect in laboratory practice. Pepe et al. note that the ‘ideal’ biomarker is detectable in tumor tissue but not detectable (at all) in non-tumour tissue (Pepe:biomarker:development.) To bias the discovery toward candidates that meet this criteria, an analysis method was developed that aims to enrich the candidates for biomarkers whose qualitative absence or presence measurement is diagnostic for the phenotype of interest. This method attempts to select candidates that show a prototypical ‘turned-on’ or ‘turned-off’ pattern relative to an estimate of the background/noise expression across the chip. It is theorized that such RNA transcripts are more likely to correlate with downstream translated proteins with diagnostic potential or to predict upstream genomic changes (e.g. methylation status) that could be used diagnostically. This focus on qualitative rather than quantitative outcomes may simplify the product development process for such biomarkers.

The method is based on the assumption that the pool of extracted RNA species in any given tissue (e.g. colorectal mucosae) will specifically bind to a relatively small subset of the full set of probesets on a GeneChip designed to measure the whole genome. On this assumption, it is estimated that most probesets on a full human gene chip will not exhibit specific, high-intensity signals.

This observation is utilised to approximate the background or ‘non-specific binding’ across the chip by choosing a theoretical level equal to the value of e.g. lowest 25% quantile of the ranked mean values. This quantile can be arbitrarily set to some level below which there is made a reasonable assumption that the signals do not represent above-background RNA binding. Finally, this background estimate is used as a threshold to estimate the ‘OFF’ probesets in an experiment for, say, the non-neoplastic tissue specimens.

Conversely, it is further hypothesized that probesets which are 1) expressed above this theoretical threshold level and 2) at differentially higher levels in the tumour specimens may be a tumour specific candidate biomarker. It is noted that in this case the concept of ‘fold-change’ thresholds can also be conveniently applied to further emphasize the concept of absolute expression increases in a putatively ‘ON’ probeset.

Given the assumption of low background binding for a sizeable fraction of the measured probesets, this method was only used in the large GeneLogic data and discovery. To construct a filter for hypothetically ‘turned on’ biomarker in the GeneLogic discovery data, the mean expression level for all 44,928 probesets across the full range of 454 tissues was estimated. The 44,928 mean values were then ranked and the expression value equivalent to the 25th percentile across the dataset calculated. This arbitrary threshold was chosen because the majority of transcripts (and presumably more than 25%) in a given specimen should exhibit low concentration which effectively transcriptional silence. Thus this threshold represents a conservative upper bound for what is estimated is non-specific, or background, expression.

Example 5 DNA Methylation Data

Assays were developed for detection of methylation in the promoter regions the eight down-regulated genes in Table 5. Methods for bisulphite treatment of DNA and assays for determination of DNA methylation levels, including MSP and COBRA, are described in Clark et al., (2006).

Five MSP assays used the primer pairs shown in TABLE 7. A control PCR for unbiased amplification of the CAGE gene was used to determine the quantity of input DNA to provide a reference for quantification of the level of methylation of each gene. For PCRs, 25 μL reactions in Biorad iQ SyBr Green Super Mix contained 5 ng of bisulphite-treated DNAs (1 ng for cell line assays and 6 ng for clinical specimens) and 200 nM of forward and reverse primers. PCR cycling conditions were:

-   -   95.0° C. for 2 min     -   Followed by 50 cycles of     -   95.0° C./15 sec     -   Temp® C/30 sec     -   72.0° C./30 sec

Where “Temp” is the re-annealing temperature optimised for each gene as shown in Table yy.

For the DF gene, 3 preliminary cycles were done using a 95.0° C. melting temperature, followed by 50 cycles with a lower, 84.0° C. melting temperature (to reduce nonspecific amplification).

A standard curve was generated using DNA methylated with M.SssI methylase (100% methylated) and DNA that had been in vitro amplified using Phi29 DNA polymerase (0% methylation).

COBRA assays were developed for three genes as shown in TABLE 8. PCRs were setup as above with cycling conditions:

-   -   95.0° C. for 2 min     -   Followed by 50 cycles of     -   95.0° C./15 sec     -   Temp® C/30 sec     -   72.0° C./30 sec

After PCR, 10 μL of PCR product was digested with the appropriate enzyme (TABLE 8), digestion products analysed by gel electrophoresis and methylation levels determined semiquantitatively.

The methylation state of the eight genes was determined in four colorectal cancer cell lines, Caco2, HCT116, HT29 and SW480 as well as normal blood DNA and the normal lung fibroblast cell line, MRC5. The level of methylation in summarised in Table 5. The promoter regions of all eight genes show strong methylation in 2 or 3 of the four colorectal cancer cell lines tested. All showed a lack or low level of methylation in DNA from normal blood DNA and the fibroblast cell line MRC5, except for methylation of DF in MRC5.

For two of these genes, MAMDC2 and GPM6B analysis has been extended to a set of 12 adenoma, 18 cancer and 22 matched normal tissue samples (FIGS. 2, A and B).

For MAMDC2 quantitative analysis demonstrated that 2 of 12 adenomas and 6 of 18 cancer samples showed elevated methylation compared with the highest level observed in normal tissue samples. Methylation levels of the GPM6B gene were determined by semiquantitative COBRA assays, scored on a scale of 0 to 5 based on visual inspection of restriction digestions. A clear trend toward increasing promoter methylation in progression from normal to adenoma to cancer was evident (FIG. 2, panel B).

These data demonstrate for a number of examples of the down-regulated genes that such downregulation in colorectal cancer cell lines and primary neoplasia tissue may be associated with DNA methylation and that assays of DNA methylation can be used to discriminate cancer and normal tissue.

Example 6 Determine Gene Identity of a Nucleic Add Sequence of Interest which is Define by an Affymetrix Probeset

BLAST the Sequence of Interest Using Online Available Basic Local Alignment Search Tools [BLAST]. e.g. NCBI/BLAST

-   -   (http://blast.nbi.nlm.nih.gov/Blast.cgi)     -   (a) Select “Human” in BLAST ASSEMBLED GENOMES on the web page         http://blast.ncbi.nlm.nih.gov/Blast.cgi     -   (b) Leave the default settings, i.e.:         -   Database: Genome (all assemblies)         -   Program: megaBLAST: compare highly related nucleotide             sequences         -   Optional parameters: Expect: 0.01, Filter: default,             Descriptions: 100, Alignments: 100     -   (c) Copy/Paste Sequence into the “BLAST” window     -   (d) Click “Begin Search”     -   (e) Click “View Report”

Assessment of the Open BLAST Search Results

Multiple significant sequence alignments may be identified when “blasting” the sequence.

Identify Gene Nomenclature of the Identified Sequence Match

-   -   (a) Click the link to one of the identified hits     -   (b) The new page will schematically depict the position of the         hit on one chromosome. It will be apparent which gene is hit.     -   (c) Retrieve the “hit” sequence clicking on the link     -   (d) Do a search for the gene in the provided “search” window.         This provides the gene nucleotide coordinates for the gene.

Determine Promiscuity of Sequence

-   -   (a) Open the NCBI/BLAST tool,         (http://blast.ncbi.nlm.nih.gov/Blast.cgi)     -   (b) Click on “nucleotide Blast” under “basic BLAST”     -   (c) Copy/paste the sequence of interest into the “Query         Sequence” window     -   (d) Click “Blast”.         Assessment of the nBLAST Search Results of the Sequence     -   (a) The nBLAST exercise with the Sequence may result in multiple         Blast hits of which some accession entry numbers are listed in         “Description”.     -   (b) These hits should be reviewed.

Determine Location of the Sequence in the Gene

The Ensembl database is an online database, which produces and maintains automatic annotation selected eukaryotic genomes (www.ensembl.org/index.html)

Identify Location of the Sequence in the Gene

-   -   (a) Set “Search” to Homo Sapiens, Type “the gene name” in the         provided Search Field Ensemble.org/index.html)     -   (b) Click “Go”     -   (c) Click the “vega protein_coding Gene: OTTHUMG000000144184”         link to get an annotation report     -   (d) Click on “Gene DAS Report” to retrieve information regarding         Alternative splice site database: Type “the gene name” in search         field         -   Click on “the gene entry”         -   Scroll down to “evidences”         -   Review alternative splice sites         -   Click “Confirmed intron/exons” to get a list of coordinates             for the exons & introns.             Alternative Splicing and/or Transcription             The AceView Database provides curated and non-redundant             sequence representation of all public mRNA sequences. The             database is available through NCBI:             http://www.ncb.nlm.nih.gov/IEB/Research/Acembly/             Further Investigation of the Gene mRNA Transcripts     -   (a) Type “the gene name” into the provided “search” field     -   (b) Click “Go”     -   (c) The following information is available from the resulting         entry in AceView:         -   The number of cDNA clones from which the gene is constructed             (ie originated-from experimental work involving isolation of             mRNA)         -   The mRNAs predicted to be produced by the gene         -   The existence of non-overlapping alternative exons and             validated alternative polyadenylation sites         -   The existence of truncations         -   The possibility of regulated alternate expression         -   Introns recorded as participating in alternatively splicing             of the gene     -   (d) Classic splice site motives

Application of Method to LOC643911/hCG_1815491 Materials and Methods Extraction of RNA

RNA extractions were performed using Trizol® reagent (Invitrogen, Carlsbad, Calif., USA) as per manufacturer's instructions. Each sample was homogenised in 300 μL of Trizol reagent using a modified dremel drill and sterilised disposable pestles. Additional 200 μL of Trizol reagent was added to the homogenate and samples were incubated at RT for 10 minutes. 100 μL of chloroform was then added, samples were shaken vortexed for 15 seconds, and incubated at RT for 3 further minutes. The aqueous phase containing target RNA was obtained by centrifugation at 12,000 rpm for 15 min, 40° C. RNA was then precipitated by incubating samples at RT for 10 min with 250 μL of isopropanol. Purified RNA precipitate was collected by centrifugation at 12,000 rpm for 10 minutes, 40° C. and supernatants were discarded. Pellets were then washed with 1 mL 75% ethanol, followed by vortexing and centrifugation at 7,500 g for 8 min, 40° C. Finally, pellets were air-dried for 5 min and resuspended in 80 μL of RNase free water. To improve subsequent solubility samples were incubated at 55, C for 10 min. RNA was quantified by measuring the optical density at A260/280 nm. RNA quality was assessed by electrophoresis on a 1.2% agarose formaldehyde gel.

Gene Chip Processing

RNA samples to analyze on Human Exon 1.0 ST GeneChips were processed using the Affymetrix WT target labeling and control kit (part#900652) following the protocol described in (Affymetrix 2007 P/N 701880 Rev.4). Briefly: First cycle cDNA was synthesized from 100 ng ribosomal reduced RNA using random hexamer primers tagged with T7 promoter sequence and SuperScript II (Invitrogen, Carlsbad Calif.), this was followed by DNA Polymerase I synthesis of the second strand cDNA. Anti-sense cRNA was then synthesized using T7 polymerase. Second cycle sense cDNA was then synthesised using SuperScript II, dNTP+dUTP, and random hexamers to produce sense strand cDNA incorporating uracil. This single stranded uracil containing cDNA was then fragmented using a combination of uracil DNA glycosylase (UDG) and apurinic/apyrimidinic endonuclease1 (APE 1). Finally the DNA was biotin labelled using terminal deoxynucleotidyl transferase (TdT) and the Affymetrix proprietary DNA Labeling reagent. Hybridization to the arrays was carried out at 45° C. for 16-18 hours.

Washing and staining of the hybridized GeneChips was carried out using the Affymetrix Fluidics Station 450 and scanned with the Affymetrix Scanner 3000 following recommended protocols.

SYBR Green Based Quantitative Real Time-PCR

Quantitative real time polymerase chain reaction was performed on RNA isolated from clinical samples for the amplification and detection of the various hCG_1815491 transcripts.

Firstly cDNA was synthesized from 2 ug of total RNA using the Applied Biosystems High Capacity Reverse transcription Kit (P/N 4368814). After synthesis the reaction was diluted 1:2 with water to obtain a final volume of 40 ul and 1 ul of this diluted cDNA used in subsequent PCR reactions.

PCR was performed in a 25 ul volume using 12.5 ul Promega 2×PCR master mix (P/N M7502), 1.5 ul 5 uM forward primer, 1.5 ul 5 uM reverse primer, 7.875 ul water, 0.625 ul of a 1:3000 dilution of 10,000× stock of SYBR green 1 pure dye (Invitrogen P/N S7567), and 1 ul of cDNA.

Cycling conditions for amplification were 95° for 2 minutes×1 cycle, 95° for 15 seconds and 60° for 1 minute×40 cycles. The amplification reactions were performed in a Corbett Research Rotor-Gene RG3000 or a Roche LightCycler480 real-time PCR machine. When the Roche LightCycler480 real-time PCR machine was used for amplification the reaction volume was reduced to 10 ul and performed in a 384 well plate but the relative ratios between all the components remained the same. Final results were calculated using the ΔΔCt method with the expression levels of the various hCG_1815491 transcripts being calculated relative to the expression level of the endogenous house keeping gene HPRT.

End-Point PCR

End point PCR was performed on RNA isolated from clinical samples for the various hCG_1815491 transcripts. Conditions were identical to those described for the SYBR green assay above but with the SYBR green dye being replaced with water. The amplification reactions were performed in a MJ Research PTC-200 thermal cycler. 2.5 μl of the amplified products were analysed on 2% agarose E-gel (Invitrogen) along with a 100-base pair DNA Ladder Marker.

Results

The nucleotide structure and expression levels of transcripts related to hCG_1815491 was analysed based on the identification of diagnostic utility of Affymetrix probesets 238021_s_at and 238022_at from the gene chip analysis.

The gene hCG_1815491 is currently represented in NCBI as a single RefSeq sequence, XM_93911. The RefSeq sequence of hCG_1815491 is based on 89 GenBank accessions from 83 cDNA clones. Prior to March 2006, these clones were predicted to represent two overlapping genes, LOC388279 and LOC650242 (the latter also known as LOC643911). In March 2006, the human genome database was filtered against clone rearrangements, co-aligned with the genome and clustered in a minimal non-redundant way. As a result, LOC388272 and LOC650242 were merged into one gene named hCG_1815491 (earlier references to hCG_1815491 are: LOC388279, LOC643911, LOC650242, XM_944116, AF275804, XM373688).

It has been determined that the Ref Sequence, which is defined by the genomic coordinates 8579310 to 8562303 on human chromosome 16 as defined by the NCBI contig reference NT_010498.15|Hs16_10655, NCBI 36 Mar. 2006 genome encompasses hCG_1815491. The 10 predicted RNA variants derived from this gene have been aligned with the genomic nucleotide sequence residing in the map region 8579310 to 8562303. This alignment analysis revealed the existence of at least 6 exons of which several are alternatively spliced. The identified exons are in contrast to the just 4 exons specified in the NCBI hCG_1815491 RefSeq XM_93911. Two additional putative exons were also identified in the Ref Sequence by examination of included probesets on Affymetrix Genechip HuGene Exon 1.0 that target nucleotide sequences embedded in the Ref Sequence. The identified and expanded exon-intron structure of hCG_1815491 have been used to design specific oligonucleotide primers, which allowed measurement of the expression of RNA variants generated from the Ref Sequence by using PCR-based methodology (FIG. 4)

Tables

The probeset designations include both HG-133plus2 probeset IDs and Human Gene 1.0ST array probe ids. The latter can be conveniently mapped to Transcript Cluster ID using the Human Gene 1.0ST probe tab file provided by Affymetrix (http://www.affymetrix.com/Auth/analysis/downloads/na22/wtgene/HuGene-1_0-st-v1.probe.tab.zip). Using publicly available software such as NetAffx (provided by Affymetrix), the Transcript Cluster ID may be further mapped to gene symbol, chromosomal location, etc.

Table 1

Probesets demonstrated to be expressed higher in non-neoplastic tissues relative to neoplastic controls. TargetPS: Affymetrix HG-U133plus2 probeset id; Symbol: putative gene symbol corresponding to target probeset id—multiple symbol names indicate the possibility of probeset hybridisation to multiple gene targets; Signif. FDR: Adjusted p-value for mean difference testing between RNA extracted from neoplasia and non-neoplastic tissues. Adjustment is made using Benjamini & Hochberg correction for multiple hypothesis testing (Benjamini and Hochberg, 1995); D.value50: Diagnostic effectiveness parameter estimate corresponding to the area of a receiver operator characteristic ROC. This parameter provides a convenient estimate of diagnostic utility and is described in (Saunders, 2006); FC: fold change between mean expression level of non-neoplasia vs. neoplasia; Sens-Spec: Estimate of diagnostic performance corresponding to the ROC curve point demonstrating equal sensitivity and specificity; CI (95): 95% confidence interval of sensitivity and specificity estimates.

Table 2

Evidence of multiple probesets which correspond to gene symbols claimed herein exhibiting RNA concentration differences between non-neoplastic tissues and neoplastic controls. Symbol: gene symbol; ValidPS_DOWN: Affymetrix probeset IDs demonstrating statistically significant overexpression in non-neoplastic RNA extracts relative to neoplastic controls. Signif. FDR. Adjusted p-value for mean difference testing between RNA extracted from neoplasia and non-neoplastic tissues. Adjustment is made using Benjamini & Hochberg correction for multiple hypothesis testing (Benjamini and Hochberg, 1995); D.value50: Diagnostic effectiveness parameter estimate corresponding to the area of a receiver operator characteristic ROC. This parameter provides a convenient estimate of diagnostic utility and is described in (Saunders, 2006); FC: fold change between mean expression level of non-neoplasia vs. neoplasia; Sens-Spec: Estimate of diagnostic performance corresponding to the ROC curve point demonstrating equal sensitivity and specificity; CI (95): 95% confidence interval of sensitivity and specificity estimates.

Table 3

Probesets which demonstrate a qualitatively (in addition to quantitative) elevated profile in non-neoplastic tissues relative to neoplastic controls. TargetPS: Affymetrix HG-U133plus2 probeset id; Symbol: putative gene symbol corresponding to target probeset id—multiple symbol names indicate the possibility of probeset hybridisation to multiple gene targets; Signif. FDR: Adjusted p-value for mean difference testing between RNA extracted from neoplasia and non-neoplastic tissues. Adjustment is made using Benjamini & Hochberg correction for multiple hypothesis testing (Benjamini and Hochberg, 1995); D.value50: Diagnostic effectiveness parameter estimate corresponding to the area of a receiver operator characteristic ROC. This parameter provides a convenient estimate of diagnostic utility and is described in (Saunders, 2006); FC: fold change between mean expression level of non-neoplasia vs. neoplasia; Sens-Spec: Estimate of diagnostic performance corresponding to the ROC curve point demonstrating equal sensitivity and specificity; CI (95): 95% confidence interval of sensitivity and specificity estimates.

Table 4

Evidence of multiple probesets which correspond to gene symbols claimed herein exhibiting qualitative changes in RNA concentration in non-neoplastic tissues compared to neoplastic tissues. Symbol: gene symbol; ValidPS_DOWN: Affymetrix probeset IDs demonstrating statistically significant overexpression in neoplastic RNA extracts relative to non-neoplastic controls. Signif. FDR Adjusted p-value for mean difference testing between RNA extracted from neoplasia and non-neoplastic tissues. Adjustment is made using Benjamini & Hochberg correction for multiple hypothesis testing (Benjamini and Hochberg, 1995); D.value50: Diagnostic effectiveness parameter estimate corresponding to the area of a receiver operator characteristic ROC. This parameter provides a convenient estimate of diagnostic utility and is described in (Saunders, 2006); FC: fold change between mean expression level of non-neoplasia vs. neoplasia; Sens-Spec: Estimate of diagnostic performance corresponding to the ROC curve point demonstrating equal sensitivity and specificity; CI (95): 95% confidence interval of sensitivity and specificity estimates.

Those skilled in the art will appreciate that the invention described herein is susceptible to variations and modifications other than those specifically described. It is to be understood that the invention includes all such variations and modifications. The invention also includes all of the steps, features, compositions and compounds referred to or indicated in this specification, individually or collectively, and any and all combinations of any two or more of said steps or features.

TABLE 1 Sens- TargetPS Symbol Signif. FDR D.val5 FC Spec CI (95) 230788_at SPTLC3:GCNT2 2.16E−27 3.9512 13.36 97.6 94.2-99.2 207502_at GUCA2B 7.04E−25 3.6279 51.78 96.5 92.3-98.6 207003_at GUCA1B 7.32E−25 3.565 10.7 96.3   92-98.5 206208_at CA4 1.73E−24 3.6263 10.41 96.5 92.4-98.6 206209_s_at CA4 1.73E−24 3.6265 10.41 96.5 92.3-98.6 203908_at LOC727995:SLC4A4:LOC730895 2.23E−23 3.6298 3.58 96.5 92.4-98.6 206784_at AQP8 2.98E−22 3.3284 10.82 95.2 90.3-97.9 205950_s_at CA1 3.15E−22 3.368 38.27 95.4 90.6-98   209735_at ABCG2 1.09E−21 3.2584 31.53 94.8 89.7-97.7 230830_at OSTbeta 6.23E−21 3.1861 7.15 94.4 89.2-97.5 223754_at MGC13057 6.94E−21 3.2036 3.18 94.5 89.3-97.5 228195_at MGC13057 6.94E−21 3.2023 3.18 94.5 89.4-97.5 228706_s_at CLDN23 4.27E−20 3.0757 3.47 93.8 88.2-97.1 228707_at CLDN23 4.27E−20 3.072 3.47 93.8 88.3-97.1 223551_at PKIB 5.94E−20 3.1219 3.28 94.1 88.6-97.3 231120_x_at PKIB 5.94E−20 3.1226 3.28 94.1 88.6-97.3 226492_at SEMA6D 6.07E−20 3.0898 4.27 93.9 88.4-97.2 220026_at CLCA4 1.25E−19 3.1909 16.3 94.5 89.2-97.5 224836_at TP53INP2 1.45E−19 3.0248 3.78 93.5 87.9-96.9 220834_at MS4A12 2.13E−19 3.29 7.15 95   90-97.8 224412_s_at TRPM6 2.25E−19 3.01 7.5 93.4 87.7-96.8 220037_s_at XLKD1 3.60E−19 2.9412 7.44 92.9 87.1-96.6 219059_s_at XLKD1 3.60E−19 2.942 7.44 92.9   87-96.6 209612_s_at ADH1B:ADH1A 4.70E−19 3.0183 4.67 93.4 87.7-96.9 209613_s_at ADH1B:ADH1A 4.70E−19 3.0147 4.67 93.4 87.7-96.9 200845_s_at LOC389249:PRDX6 5.56E−19 2.8412 2.76 92.2 86.1-96.1 209301_at CA2 5.87E−19 2.9662 9.22 93.1 87.3-96.7 208399_s_at EDN3 6.42E−19 2.9342 11.21 92.9   87-96.5 228961_at MIER3 9.14E−19 2.9183 3.91 92.8 86.9-96.5 231975_s_at MIER3 9.14E−19 2.9172 3.91 92.8 86.8-96.4 204719_at ABCA8 1.26E−18 2.9172 6.82 92.8 86.8-96.5 207761_s_at METTL7A 1.35E−18 3.1247 1.93 94.1 88.6-97.3 207977_s_at DPT 1.53E−18 2.8967 9.07 92.6 86.6-96.4 213068_at DPT 1.53E−18 2.8973 9.07 92.6 86.7-96.4 213071_at DPT 1.53E−18 2.8962 9.07 92.6 86.7-96.4 218756_s_at MRM1:MGC4172 1.74E−18 2.9041 3.74 92.7 86.6-96.4 212288_at FNBP1:C1orf85:CCT3 1.76E−18 3.0475 2.04 93.6 88-97 204036_at EDG2 2.44E−18 2.8853 3.19 92.5 86.4-96.3 202037_s_at SFRP1 2.77E−18 2.8647 15.53 92.4 86.3-96.2 206143_at SLC26A3 4.18E−18 2.9202 21.4 92.8 86.9-96.5 215657_at SLC26A3 4.18E−18 2.9226 21.4 92.8 86.9-96.5 231773_at ANGPTL1 1.42E−17 2.7938 4.64 91.9 85.6-95.9 205480_s_at UGP2 1.64E−17 2.7911 2.41 91.9 85.6-95.9 204955_at SRPX 1.79E−17 2.7753 3.91 91.7 85.5-95.8 222722_at OGN 2.25E−17 2.7048 13.67 91.2 84.8-95.4 202555_s_at MYLK 2.33E−17 2.773 3.99 91.7 85.4-95.8 224823_at MYLK 2.33E−17 2.7727 3.99 91.7 85.4-95.8 225575_at LIFR 2.45E−17 2.7823 6.36 91.8 85.5-95.8 214142_at LOC653808:ZG16 2.51E−17 2.8119 8.14 92 85.8-95.9 206710_s_at EPB41L3 2.62E−17 2.8298 2.51 92.1 85.9-96.1 205464_at SCNN1B 3.20E−17 2.7209 16.15 91.3 84.9-95.5 220812_s_at HHLA2 3.47E−17 2.6717 10.02 90.9 84.4-95.3 203913_s_at HPGD 3.65E−17 2.8441 3.21 92.2 86.1-96.1 203914_x_at HPGD 3.65E−17 2.8456 3.21 92.3 86.1-96.1 211548_s_at HPGD 3.65E−17 2.8446 3.21 92.3 86.1-96.1 211549_s_at HPGD 3.65E−17 2.8466 3.21 92.3 86.1-96.1 206198_s_at CEACAM7 3.96E−17 2.7882 10.4 91.8 85.5-95.9 206199_at CEACAM7 3.96E−17 2.7855 10.4 91.8 85.6-95.8 211848_s_at CEACAM7 3.96E−17 2.7882 10.4 91.8 85.6-95.8 226430_at SMAD5:RELL1 4.10E−17 2.6968 2.5 91.1 84.6-95.4 202992_at C7 4.40E−17 2.7163 6.67 91.3 84.9-95.5 205112_at PLCE1 6.91E−17 2.7542 2.43 91.6 85.2-95.7 229839_at SCARA5 1.25E−16 2.6897 2.86 91.1 84.6-95.3 235849_at SCARA5 1.25E−16 2.6918 2.86 91.1 84.5-95.3 209763_at CHRDL1 1.49E−16 2.6093 13.88 90.4 83.7-94.9 205259_at NR3C2 2.08E−16 2.5812 3.19 90.2 83.4-94.7 202242_at TSPAN7 2.13E−16 2.6519 3.68 90.8 84.1-95.1 203000_at STMN2 2.25E−16 2.6115 6.13 90.4 83.7-94.9 203001_s_at STMN2 2.25E−16 2.6141 6.13 90.4 83.7-94.9 209074_s_at FAM107A 2.52E−16 2.6171 2.92 90.5 83.8-94.9 202920_at ANK2 2.59E−16 2.6499 6.76 90.7 84.1-95.1 213317_at CLIC5 3.68E−16 2.696 2.37 91.1 84.6-95.4 204697_s_at CHGA 5.54E−16 2.6087 7.21 90.4 83.7-94.9 212814_at KIAA0828 5.58E−16 2.5495 4.09 89.9   83-94.5 225275_at EDIL3 6.21E−16 2.6252 2.96 90.5   83.9-95 208370_s_at DSCR1 6.21E−16 2.6146 2.14 90.4 83.7-94.9 209147_s_at PPAP2A 6.43E−16 2.5961 2.4 90.3 83.6-94.8 210946_at PPAP2A 6.43E−16 2.5967 2.4 90.3 83.5-94.8 202731_at PDCD4 8.67E−16 2.4558 2.6 89 82-94 219799_s_at DHRS9:GORASP2 1.09E−15 2.7368 1.51 91.4 85.1-95.6 223952_x_at DHRS9:GORASP2 1.09E−15 2.7334 1.51 91.4   85-95.6 224009_x_at DHRS9:GORASP2 1.09E−15 2.7359 1.51 91.4 85.1-95.6 236313_at CDKN2B 1.34E−15 2.5442 10.09 89.8   83-94.5 231925_at P2RY1 1.41E−15 2.5354 3.6 89.8 82.9-94.4 238143_at LOC646627 1.58E−15 1.9142 5.02 83.1 74.8-89.4 224480_s_at LPAAT-THETA 2.06E−15 2.3867 2.63 88.4 81.1-93.5 212230_at PPAP2B 2.44E−15 2.5821 1.81 90.2 83.4-94.7 207080_s_at PYY 3.50E−15 2.4811 11.71 89.3 82.3-94.1 205200_at CLEC3B 4.65E−15 2.4426 4.46 88.9 81.8-93.8 228133_s_at NDE1 4.84E−15 2.514 1.99 89.6 82.7-94.3 214038_at CCL8 5.75E−15 2.4504 7.51 89 81.9-93.9 219014_at PLAC8 5.76E−15 2.4248 3.87 88.7 81.6-93.7 219796_s_at MUCDHL 5.81E−15 2.4346 3.06 88.8 81.6-93.8 220075_s_at MUCDHL 5.81E−15 2.4354 3.06 88.8 81.7-93.8 215299_x_at SULT1A1:SULT1A2 7.17E−15 2.4231 3.37 88.7 81.5-93.7 233565_s_at SDCBP2 9.28E−15 2.4871 2.37 89.3 82.3-94.1 228885_at RPL24:LOC731365 1.23E−14 2.5555 1.63 89.9 83.1-94.6 209687_at CXCL12 1.54E−14 2.4322 3.79 88.8 81.7-93.8 218546_at C1orf115 1.95E−14 2.4106 2.95 88.6 81.4-93.6 205097_at SLC26A2 2.08E−14 2.4219 7.83 88.7 81.5-93.7 224959_at SLC26A2 2.08E−14 2.4229 7.83 88.7 81.6-93.7 224963_at SLC26A2 2.08E−14 2.4205 7.83 88.7 81.5-93.7 204069_at MEIS1 2.49E−14 2.3759 5.44 88.3   81-93.4 223121_s_at SFRP2 3.05E−14 2.3937 7.39 88.4 81.2-93.5 223122_s_at SFRP2 3.05E−14 2.3967 7.39 88.5 81.2-93.5 209191_at TUBB3:MC1R:TUBB6 3.55E−14 2.3684 5.9 88.2 80.9-93.3 201348_at GPX3 5.68E−14 2.36 2.57 88.1 80.8-93.2 214091_s_at GPX3 5.68E−14 2.3613 2.57 88.1 80.7-93.3 228766_at CD36 6.27E−14 2.4671 1.65 89.1 82.1-94   221896_s_at HIGD1A 6.29E−14 2.3985 2.09 88.5 81.3-93.5 201865_x_at NR3C1 7.65E−14 2.3539 2.51 88 80.6-93.2 211671_s_at NR3C1 7.65E−14 2.3517 2.51 88 80.7-93.2 206149_at LOC63928 8.09E−14 2.3513 3.2 88 80.7-93.2 228846_at MXD1 8.35E−14 2.4074 2.11 88.6 81.4-93.6 225602_at C9orf19 1.74E−13 2.3619 1.95 88.1 80.9-93.3 225604_s_at C9orf19 1.74E−13 2.3646 1.95 88.1 80.8-93.3 201893_x_at DCN 2.05E−13 2.311 5.62 87.6 80.2-92.9 209335_at DCN 2.05E−13 2.3115 5.62 87.6 80.3-92.9 211813_x_at DCN 2.05E−13 2.3145 5.62 87.6 80.2-92.9 211896_s_at DCN 2.05E−13 2.3124 5.62 87.6 80.2-92.9 204818_at HSD17B2 2.32E−13 2.196 4.76 86.4 78.7-92   204931_at TCF21 2.51E−13 2.306 2.34 87.6 80.1-92.9 204438_at MRC1 2.72E−13 2.3105 2.6 87.6 80.2-92.9 206262_at ADH1A:ADH1C 2.94E−13 2.3719 3.1 88.2 80.9-93.3 205433_at BCHE 3.18E−13 2.2514 6.21 87 79.5-92.5 225242_s_at CCDC80 3.60E−13 2.2316 3.67 86.8 79.2-92.3 207980_s_at CITED2 5.29E−13 2.2709 1.64 87.2 79.7-92.6 209357_at CITED2 5.29E−13 2.2704 1.64 87.2 79.7-92.6 208383_s_at PCK1 5.74E−13 2.3242 3.6 87.7 80.4-93   206385_s_at ANK3:LOC729184:LOC731186 7.46E−13 2.2305 2.45 86.8 79.2-92.2 203305_at F13A1 8.82E−13 2.1821 4.74 86.2 78.6-91.8 206134_at ADAMDEC1 9.04E−13 2.2607 3.19 87.1 79.5-92.5 215118_s_at AHNAK:IGHG1 9.41E−13 2.3277 1.73 87.8 80.3-93   217022_s_at AHNAK:IGHG1 9.41E−13 2.3254 1.73 87.8 80.4-93   223395_at ABI3BP 9.47E−13 2.2207 3.62 86.7   79-92.2 225626_at PAG1 1.11E−12 2.2136 2.68 86.6 78.9-92.1 213953_at KRT20 1.26E−12 2.0964 5.49 85.3 77.4-91.1 226594_at ENTPD5 1.43E−12 2.1687 3.01 86.1 78.4-91.8 209373_at MALL 2.10E−12 2.1597 3.96 86 78.3-91.7 212713_at MFAP4 2.96E−12 2.1797 2.51 86.2 78.5-91.9 208920_at SRI 3.03E−12 2.0982 2.43 85.3 77.4-91.1 201739_at SGK 3.12E−12 2.1221 4.08 85.6 77.8-91.3 214696_at MGC14376 3.39E−12 2.1045 2.58 85.4 77.5-91.2 204034_at ETHE1 3.46E−12 2.2127 1.75 86.6   79-92.1 209667_at CES2 3.51E−12 2.102 2.87 85.3 77.4-91.2 209668_x_at CES2 3.51E−12 2.0978 2.87 85.3 77.4-91.1 213509_x_at CES2 3.51E−12 2.097 2.87 85.3 77.4-91.1 202291_s_at MGP:C12orf46 3.63E−12 2.1448 4.68 85.8   78-91.5 209167_at GPM6B 4.04E−12 2.1568 3.59 86 78.2-91.6 209170_s_at GPM6B 4.04E−12 2.1581 3.59 86 78.2-91.6 225720_at SYNPO2 5.07E−12 2.1053 6.43 85.4 77.5-91.2 225721_at SYNPO2 5.07E−12 2.1069 6.43 85.4 77.5-91.2 225894_at SYNPO2 5.07E−12 2.1043 6.43 85.4 77.5-91.2 225895_at SYNPO2 5.07E−12 2.1069 6.43 85.4 77.5-91.2 227662_at SYNPO2 5.07E−12 2.1043 6.43 85.4 77.5-91.2 206422_at GCG 5.58E−12 2.1185 12.56 85.5 77.7-91.3 205593_s_at PDE9A 6.56E−12 2.1443 3.91 85.8   78-91.5 220376_at LRRC19 6.75E−12 2.076 4.51 85 77.1-91   204130_at HSD11B2 6.97E−12 2.0896 2.53 85.2 77.3-91.1 224964_s_at GNG2 7.25E−12 2.1405 1.91 85.8   78-91.5 219508_at GCNT3 8.39E−12 2.0843 3.94 85.1 77.2-91   211645_x_at No Symbol 9.19E−12 2.1536 1.61 85.9 78.2-91.6 212233_at No Symbol 9.19E−12 2.1541 1.61 85.9 78.1-91.6 212764_at No Symbol 9.19E−12 2.1541 1.61 85.9 78.1-91.6 214777_at No Symbol 9.19E−12 2.1543 1.61 85.9 78.2-91.6 217235_x_at No Symbol 9.19E−12 2.155 1.61 85.9 78.2-91.6 225710_at No Symbol 9.19E−12 2.1539 1.61 85.9 78.1-91.6 226333_at No Symbol 9.19E−12 2.1529 1.61 85.9 78.1-91.6 226834_at No Symbol 9.19E−12 2.154 1.61 85.9 78.1-91.6 227061_at No Symbol 9.19E−12 2.152 1.61 85.9 78.1-91.6 228504_at No Symbol 9.19E−12 2.1533 1.61 85.9 78.1-91.6 228507_at No Symbol 9.19E−12 2.1538 1.61 85.9 78.2-91.6 228640_at No Symbol 9.19E−12 2.1532 1.61 85.9 78.2-91.6 228854_at No Symbol 9.19E−12 2.1532 1.61 85.9 78.2-91.7 236300_at No Symbol 9.19E−12 2.1532 1.61 85.9 78.2-91.6 242317_at No Symbol 9.19E−12 2.1529 1.61 85.9 78.1-91.6 210524_x_at No Symbol 9.19E−12 2.1554 1.61 85.9 78.2-91.7 224989_at No Symbol 9.19E−12 2.1526 1.61 85.9 78.2-91.6 227052_at No Symbol 9.19E−12 2.151 1.61 85.9 78.1-91.6 227682_at No Symbol 9.19E−12 2.1549 1.61 85.9 78.2-91.6 235146_at No Symbol 9.19E−12 2.1527 1.61 85.9 78.2-91.7 207126_x_at UGT1A10:UGT1A7:UGT1A8: 9.98E−12 2.0677 4.56 84.9   77-90.9 UGT1A1:UGT1A9:UGT1A6: UGT1A5:UGT1A3:UGT1A4 206094_x_at UGT1A10:UGT1A7:UGT1A8: 1.01E−11 2.0693 4.56 85   77-90.8 UGT1A1:UGT1A9:UGT1A6: UGT1A5:UGT1A3:UGT1A4 208596_s_at UGT1A10:UGT1A7:UGT1A8: 1.01E−11 2.0662 4.56 84.9 76.9-90.8 UGT1A1:UGT1A9:UGT1A6: UGT1A5:UGT1A3:UGT1A4 221305_s_at UGT1A10:UGT1A7:UGT1A8: 1.03E−11 2.0663 4.56 84.9   77-90.9 UGT1A1:UGT1A9:UGT1A6: UGT1A5:UGT1A3:UGT1A4 204532_x_at UGT1A10:UGT1A7:UGT1A8: 1.18E−11 2.0678 4.56 84.9   77-90.9 UGT1A1:UGT1A9:UGT1A6: UGT1A5:UGT1A3:UGT1A4 215125_s_at UGT1A10:UGT1A7:UGT1A8: 1.18E−11 2.0682 4.56 84.9   77-90.9 UGT1A1:UGT1A9:UGT1A6: UGT1A5:UGT1A3:UGT1A4 209791_at PADI2 1.46E−11 2.0258 3.98 84.4 76.4-90.5 219669_at CD177 1.49E−11 2.0618 5.77 84.9 76.9-90.8 201539_s_at FHL1 1.63E−11 2.0448 3.25 84.7 76.7-90.7 201540_at FHL1 1.63E−11 2.0466 3.25 84.7 76.7-90.7 210298_x_at FHL1 1.63E−11 2.0438 3.25 84.7 76.7-90.6 210299_s_at FHL1 1.63E−11 2.0458 3.25 84.7 76.6-90.6 214505_s_at FHL1 1.63E−11 2.0459 3.25 84.7 76.7-90.6 206576_s_at CEACAM1 2.66E−11 2.0448 2.85 84.7 76.7-90.7 209498_at CEACAM1 2.66E−11 2.0446 2.85 84.7 76.7-90.7 211889_x_at CEACAM1 2.66E−11 2.0471 2.85 84.7 76.7-90.7 202994_s_at FBLN1 2.82E−11 2.0183 3.55 84.4 76.3-90.4 202995_s_at FBLN1 2.82E−11 2.0191 3.55 84.4 76.3-90.4 201427_s_at SEPP1 2.83E−11 2.034 4.15 84.5 76.5-90.6 212956_at TBC1D9 3.89E−11 2.1428 1.54 85.8   78-91.5 203963_at CA12 4.32E−11 2.0024 2.65 84.2 76.1-90.2 204508_s_at CA12 4.32E−11 2.0029 2.65 84.2 76.2-90.3 210735_s_at CA12 4.32E−11 2.0016 2.65 84.2 76.1-90.2 214164_x_at CA12 4.32E−11 2.0016 2.65 84.2 76.1-90.3 215867_x_at CA12 4.32E−11 2.0027 2.65 84.2 76.1-90.3 203881_s_at DMD 5.01E−11 2.0159 4.74 84.3 76.2-90.4 213624_at SMPDL3A 5.84E−11 1.9409 3.14 83.4 75.2-89.6 226304_at HSPB6 6.16E−11 1.9486 6.88 83.5 75.4-89.8 206561_s_at LOC441282:AKR1B10:LOC340888 7.91E−11 1.9478 5.17 83.5 75.3-89.7 203343_at UGDH 8.72E−11 1.9619 2.4 83.7 75.6-89.9 205892_s_at FABP1 9.02E−11 1.9694 6.54 83.8 75.6-89.9 206637_at P2RY14 1.31E−10 1.9821 2 83.9 75.8-90.1 202266_at TTRAP 1.59E−10 1.9147 2.2 83.1 74.9-89.4 206000_at LOC642840:MEP1A:LOC389747: 2.07E−10 1.9873 3.17 84 75.9-90.1 LOC644777 201496_x_at MYH11 2.15E−10 1.8577 5.35 82.4   74-88.8 201497_x_at MYH11 2.15E−10 1.8599 5.35 82.4 74.1-88.8 207961_x_at MYH11 2.15E−10 1.859 5.35 82.4 74.1-88.9 201495_x_at MYH11 2.15E−10 1.8585 5.35 82.4   74-88.8 204388_s_at MAOA 2.49E−10 2.0297 2.18 84.5 76.4-90.5 204389_at MAOA 2.49E−10 2.0256 2.18 84.4 76.5-90.5 212741_at MAOA 2.49E−10 2.0267 2.18 84.5 76.5-90.5 214598_at CLDN8 2.92E−10 1.862 12.96 82.4 74.2-88.9 202838_at FUCA1 4.24E−10 1.8831 2.03 82.7 74.4-89.1 217897_at MB:FXYD6 6.39E−10 1.8109 2.92 81.7 73.3-88.3 220468_at ARL14 7.01E−10 1.8242 3.06 81.9 73.5-88.4 201920_at SLC20A1 7.65E−10 1.7849 4.04 81.4 72.9-88.1 210302_s_at MAB21L2 1.05E−09 1.7744 5.2 81.3 72.8-87.9 209114_at TSPAN1 1.16E−09 1.7896 2.16 81.5   73-88.1 220266_s_at KLF4 1.19E−09 1.8515 2.27 82.3 73.8-88.7 221841_s_at KLF4 1.19E−09 1.8493 2.27 82.2 73.9-88.8 209283_at CRYAB 1.47E−09 1.7693 3.91 81.2 72.7-87.8 223484_at C15orf48 1.54E−09 1.8189 3.07 81.8 73.4-88.4 205412_at ACAT1 1.70E−09 1.8575 1.77 82.3 73.9-88.8 202888_s_at ANPEP 2.04E−09 1.7673 8.18 81.2 72.6-87.8 225458_at EXOC3 2.25E−09 1.7957 3.17 81.5 73.1-88.1 204834_at FGL2 2.64E−09 1.8245 2.07 81.9 73.4-88.5 227265_at FGL2 2.64E−09 1.8246 2.07 81.9 73.6-88.4 228469_at PPID 3.34E−09 1.8032 1.73 81.6 73.2-88.3 221004_s_at ITM2C 3.87E−09 1.7063 2.22 80.3 71.8-87.1 213921_at SST 4.16E−09 1.7652 6.14 81.1 72.6-87.8 230087_at PRIMA1 4.74E−09 1.7085 2.75 80.4 71.8-87.2 201842_s_at EFEMP1 5.80E−09 1.8196 1.69 81.9 73.4-88.4 222162_s_at ADAMTS1 6.42E−09 1.7467 2.37 80.9 72.3-87.6 210517_s_at AKAP12 7.41E−09 1.7454 2.83 80.9 72.3-87.6 227529_s_at AKAP12 7.41E−09 1.7437 2.83 80.8 72.3-87.6 228750_at COL14A1 7.60E−09 1.7813 1.67 81.3 72.9-88   219948_x_at LOC642329:UGT2A3 8.64E−09 1.7422 4.89 80.8 72.2-87.5 208131_s_at PTGIS 9.15E−09 1.7212 3.98 80.5 71.9-87.3 207432_at BTN2A2:BEST2 9.19E−09 1.7179 3.63 80.5 71.9-87.3 219607_s_at MS4A4A:LOC643680 9.59E−09 1.8197 1.55 81.9 73.4-88.4 204688_at SGCE 1.02E−08 1.7438 2.03 80.8 72.3-87.6 207134_x_at TPSB2 1.24E−08 1.3713 1.87 75.4 66.3-82.9 209156_s_at COL6A2 1.30E−08 1.68 2.08 80 71.3-86.8 202741_at PRKACB 1.30E−08 1.7217 2.18 80.5 71.9-87.3 202742_s_at PRKACB 1.30E−08 1.721 2.18 80.5 71.9-87.3 200795_at SPARCL1 1.33E−08 1.6379 2.85 79.4 70.7-86.3 219543_at PBLD 1.38E−08 1.6981 2.74 80.2 71.6-87.1 225207_at PDK4 1.45E−08 1.705 3.02 80.3 71.7-87.2 202222_s_at SPEG:LOC729871:DES 1.47E−08 1.7229 6.66 80.6   72-87.3 214027_x_at SPEG:LOC729871:DES 1.47E−08 1.7254 6.66 80.6   72-87.4 239272_at MMP28 1.80E−08 1.6622 2.47 79.7   71-86.6 222453_at THEM4:CYBRD1 1.84E−08 1.6934 2.7 80.1 71.6-87   212195_at MAGEA4:IL6ST 1.87E−08 1.764 1.58 81.1 72.6-87.8 203980_at FABP4 2.01E−08 1.6762 5.55 79.9 71.3-86.8 211985_s_at CALM1 2.12E−08 1.6839 1.72 80 71.4-86.9 221747_at TNS1:AKAP9 2.21E−08 1.7434 2.01 80.8 72.2-87.5 221748_s_at TNS1:AKAP9 2.21E−08 1.7409 2.01 80.8 72.3-87.5 201324_at EMP1 2.59E−08 1.7149 1.95 80.4 71.9-87.3 212397_at LOC643244:RDX 3.06E−08 1.7431 1.9 80.8 72.3-87.6 205382_s_at CFD 3.06E−08 1.6462 2.81 79.5 70.8-86.4 201141_at GPNMB 3.11E−08 1.6928 1.99 80.1 71.5-87   205683_x_at TPSAB1, TPSAB1 3.52E−08 1.7075 1.93 80.3 71.8-87.1 210084_x_at TPSAB1, TPSAB1 3.52E−08 1.7045 1.93 80.3 71.8-87.1 215382_x_at TPSAB1, TPSAB1 3.52E−08 1.7091 1.93 80.4 71.7-87.2 216474_x_at TPSAB1, TPSAB1 3.52E−08 1.7069 1.93 80.3 71.7-87.2 227006_at PPP1R14A 3.54E−08 1.619 2.51 79.1 70.3-86.1 242601_at LOC253012 3.59E−08 1.6517 4.46 79.6 70.8-86.5 212730_at DMN 4.36E−08 1.6046 4.05 78.9 70.2-86   226818_at MPEG1 4.58E−08 1.6466 1.86 79.5 70.8-86.5 226841_at MPEG1 4.58E−08 1.6484 1.86 79.5 70.8-86.5 203474_at IQGAP2 5.06E−08 1.6275 2.51 79.2 70.6-86.2 203766_s_at LMOD1 5.55E−08 1.58 2.97 78.5 69.8-85.6 214916_x_at LOC652128:IGHG1:IGHM:IGHV4- 5.75E−08 1.6352 3.1 79.3 70.6-86.3 31:LOC647189:IGHV1- 69:IGHA1:IL8:EXOC7:SIX6:IGHD: IGH@:IGHG3:C12orf32: ZCWPW2:IFI6:IGHG4:IGHA2: IGHG2:RAC1 226303_at PGM5 5.87E−08 1.6215 5.87 79.1 70.4-86.2 225442_at DDR2 5.89E−08 1.562 2.61 78.3 69.4-85.4 227561_at DDR2 5.89E−08 1.5604 2.61 78.2 69.4-85.5 202760_s_at AKAP2:PALM2:PALM2- 6.28E−08 1.6137 2.17 79 70.3-86.1 AKAP2 226694_at AKAP2:PALM2:PALM2- 6.28E−08 1.6143 2.17 79 70.2-86.1 AKAP2 204894_s_at AOC3 6.43E−08 1.556 2.92 78.2 69.4-85.4 203058_s_at PAPSS2 6.43E−08 1.6171 1.97 79.1 70.4-86.1 203060_s_at PAPSS2 6.43E−08 1.6159 1.97 79 70.4-86.1 208763_s_at TSC22D3 7.22E−08 1.6098 2.76 79 70.2-86   222717_at SDPR 9.62E−08 1.5998 2.21 78.8 70.1-85.9 203680_at PRKAR2B 1.05E−07 1.6759 2.1 79.9 71.2-86.8 201041_s_at DUSP1 1.06E−07 1.5295 2.44 77.8 68.9-85   209374_s_at LOC652128:IGHG1:IGHM:IGHV4- 1.12E−07 1.6333 3.1 79.3 70.6-86.3 31:LOC647189:IGHV1- 69:IGHA1:IL8:EXOC7:SIX6:IGHD: IGH@:IGHG3:C12orf32: ZCWPW2:IFI6:IGHG4:IGHA2: IGHG2:RAC1 216491_x_at LOC652128:IGHG1:IGHM:IGHV4- 1.12E−07 1.6335 3.1 79.3 70.5-86.3 31:LOC647189:IGHV1- 69:IGHA1:IL8:EXOC7:SIX6:IGHD: IGH@:IGHG3:C12orf32: ZCWPW2:IFI6:IGHG4:IGHA2: IGHG2:RAC1 229831_at CNTN3 1.20E−07 1.6157 3.93 79 70.2-86.1 235766_x_at RAB27A 1.22E−07 1.5984 1.79 78.8 70.1-85.9 229070_at C6orf105 1.38E−07 1.6049 2.13 78.9 70.1-86   226654_at MUC12 1.53E−07 1.4559 4.89 76.7 67.7-84.1 202686_s_at AXL 1.59E−07 1.5758 1.71 78.5 69.7-85.6 205403_at IL1R2 1.73E−07 1.5237 2.54 77.7 68.8-84.9 211372_s_at IL1R2 1.73E−07 1.5229 2.54 77.7 68.7-85   205929_at GPA33 1.86E−07 1.7056 1.61 80.3 71.7-87.2 202069_s_at IDH3A 2.08E−07 1.5696 1.75 78.4 69.5-85.5 202350_s_at MATN2 2.11E−07 1.506 2.23 77.4 68.4-84.7 212859_x_at NUTF2:MT1E:MT1M 2.14E−07 1.6442 2.41 79.4 70.8-86.4 217546_at NUTF2:MT1E:MT1M 2.14E−07 1.645 2.41 79.5 70.7-86.5 216336_x_at NUTF2:MT1E:MT1M 2.14E−07 1.645 2.41 79.5 70.8-86.4 221667_s_at HSPB8 2.61E−07 1.514 3.85 77.5 68.6-84.8 217757_at A2M 2.72E−07 1.598 1.64 78.8 70.1-85.9 216510_x_at LOC652128:IGHG1:IGHM:IGHV4- 2.80E−07 1.6346 3.1 79.3 70.6-86.4 31:LOC647189:IGHV1- 69:IGHA1:IL8:EXOC7:SIX6:IGHD: IGH@:IGHG3:C12orf32: ZCWPW2:IFI6:IGHG4:IGHA2: IGHG2:RAC1 223343_at NYD-SP21:MS4A7 2.92E−07 1.5396 2.27 77.9 69.1-85.1 202620_s_at PLOD2 3.06E−07 1.5551 2.33 78.2 69.3-85.4 207245_at UGT2B17 3.75E−07 1.4796 4.88 77 68.1-84.5 210139_s_at PMP22 3.97E−07 1.5183 2.23 77.6 68.7-84.9 204938_s_at PLN 4.14E−07 1.5454 2.01 78 69.1-85.2 204939_s_at PLN 4.14E−07 1.5425 2.01 78 69.1-85.2 204940_at PLN 4.14E−07 1.5436 2.01 78 69.1-85.2 203951_at CNN1 4.77E−07 1.4324 4.56 76.3 67.3-83.8 202746_at ITM2A 5.27E−07 1.4988 2.77 77.3 68.4-84.6 221584_s_at KCNMA1 6.86E−07 1.4959 2.37 77.3 68.4-84.6 241994_at XDH 8.13E−07 1.4709 2.03 76.9 67.9-84.3 209621_s_at PDLIM3 8.20E−07 1.4805 2.38 77   68-84.4 204326_x_at LOC645652:MT1X 9.84E−07 1.4427 4.35 76.5 67.4-83.9 208581_x_at LOC645652:MT1X 9.84E−07 1.4397 4.35 76.4 67.5-83.9 201616_s_at CALD1 1.02E−06 1.4583 3.29 76.7 67.8-84.1 201617_x_at CALD1 1.02E−06 1.4617 3.29 76.8 67.7-84.1 212077_at CALD1 1.02E−06 1.4581 3.29 76.7 67.8-84.1 225782_at MSRB3 1.20E−06 1.4747 2.24 77   68-84.3 209436_at SPON1 1.46E−06 1.4849 1.88 77.1 68.1-84.4 223623_at C2orf40 1.69E−06 1.416 2.97 76.1   67-83.5 218087_s_at SORBS1:KIAA0894 2.18E−06 1.4259 2.54 76.2 67.3-83.7 222513_s_at SORBS1:KIAA0894 2.18E−06 1.4263 2.54 76.2 67.2-83.7 224990_at C4orf34 2.55E−06 1.3853 1.95 75.6 66.5-83.1 203131_at FIP1L1:PDGFRA 2.94E−06 1.4845 1.37 77.1 68.2-84.5 203638_s_at FGFR2 3.55E−06 1.5287 1.31 77.8 68.9-85   201957_at PPP1R12B:LOC731632 4.26E−06 1.3611 2.21 75.2 66.2-82.8 217967_s_at FAM129A 4.59E−06 1.4131 1.8 76   67-83.5 210809_s_at POSTN 4.94E−06 1.3954 2.25 75.7 66.7-83.2 226302_at ATP8B1 5.73E−06 1.313 1.67 74.4 65.3-82.1 238750_at CCL28 6.01E−06 1.4932 1.53 77.2 68.3-84.6 226103_at NEXN 6.83E−06 1.3666 2.23 75.3 66.2-82.8 209101_at CTGF 6.96E−06 1.4774 1.3 77 68.1-84.4 229254_at MFSD4 7.19E−06 1.3235 2.12 74.6 65.4-82.3 219087_at ASPN 7.45E−06 1.3249 2.74 74.6 65.5-82.3 209457_at DUSP5 8.60E−06 1.3336 1.91 74.8 65.7-82.4 221541_at CRISPLD2 9.24E−06 1.3664 1.64 75.3 66.2-82.9 206377_at FOXF2 9.50E−06 1.3032 2.08 74.3 65.1-82   207392_x_at UGT2B11:LOC728160:UGT2B15, 9.73E−06 1.3478 5.72 75 65.8-82.6 UGT2B11:LOC728160:UGT2B15 202274_at ACTG2 1.07E−05 1.4015 1.82 75.8 66.8-83.4 227522_at CMBL 1.09E−05 1.3588 1.58 75.2   66-82.8 212192_at KCTD12 1.44E−05 1.3659 1.36 75.3 66.2-82.8 227727_at MRGPRF 1.52E−05 1.2965 2.99 74.2 65-82 234987_at C20orf118 1.75E−05 1.4278 1.3 76.2 67.3-83.7 209656_s_at TMEM47 1.86E−05 1.2983 2.02 74.2 65.1-82   212265_at QKI 1.93E−05 1.3443 1.31 74.9 65.9-82.6 228232_s_at VSIG2 2.01E−05 1.2957 2.05 74.1   65-81.9 200799_at HSPA1A, HSPA1A 2.16E−05 1.272 2.41 73.8 64.6-81.6 218312_s_at ZNF447 3.05E−05 1.107 1.39 71 61.6-79.1 230264_s_at AP1S2 3.39E−05 1.2546 1.92 73.5 64.3-81.4 224840_at FKBP5 3.41E−05 1.2371 1.71 73.2 63.9-81.1 209948_at KCNMB1 3.74E−05 1.2181 2.66 72.9 63.6-80.8 201426_s_at VIM 4.15E−05 1.2221 1.86 72.9 63.7-80.8 227826_s_at SORBS2 4.23E−05 1.3017 2.1 74.2 65.1-82   227827_at SORBS2 4.23E−05 1.3015 2.1 74.2 65.1-82   225728_at SORBS2 4.23E−05 1.3015 2.1 74.2 65.1-82   238751_at SORBS2 4.23E−05 1.3019 2.1 74.2 65.1-82   228202_at C6orf204 4.90E−05 1.2062 2.07 72.7 63.5-80.6 220645_at FAM55D 5.67E−05 1.1786 3.48 72.2   63-80.2 224560_at TIMP2 6.40E−05 1.2304 1.82 73.1 63.9-80.9 231579_s_at TIMP2 6.40E−05 1.2286 1.82 73 63.8-81   208788_at ELOVL5 8.15E−05 1.1804 2.05 72.2   63-80.2 200974_at ACTA2 1.00E−04 1.2299 1.81 73.1 63.8-81   202388_at RGS2 0.0001 1.1604 1.94 71.9 62.7-80   206461_x_at MT1A:MT1H:LOC645745:LOC727730 0.0001 1.189 4.55 72.4 63.2-80.4 208747_s_at C1S:PRB1:PRB2, C1S:PRB2:PRB1 0.0001 1.2884 1.61 74 64.9-81.9 208791_at CLU 0.0001 1.2303 1.42 73.1 63.9-80.9 208792_s_at CLU 0.0001 1.2302 1.42 73.1 63.9-81   212185_x_at NUTF2:LOC441019:MT2A:MT1M, 0.0001 1.1894 1.89 72.4 63.1-80.3 NUTF2:LOC441019:MT2A: MT1M 222043_at CLU 0.0001 1.2306 1.42 73.1 63.9-81   227099_s_at LOC387763 0.0001 1.1963 1.36 72.5 63.2-80.5 202766_s_at FBN1 0.0002 1.1359 1.93 71.5 62.2-79.6 204745_x_at NUTF2:MT1G 0.0002 1.0888 2.66 70.7 61.3-78.9 218418_s_at ANKRD25 0.0002 1.1139 1.56 71.1 61.9-79.3 201058_s_at MYL9 0.0003 1.131 2.18 71.4 62.1-79.5 205547_s_at TAGLN 0.0003 1.0914 2.12 70.7 61.4-78.9 205935_at FOXF1 0.0004 1.1743 1.28 72.1 62.9-80.1 208450_at LGALS2 0.0004 1.0845 3.07 70.6 61.4-78.8 203748_x_at RBMS1 0.0005 1.1435 1.55 71.6 62.3-79.7 207266_x_at RBMS1 0.0005 1.1428 1.55 71.6 62.4-79.7 209868_s_at RBMS1 0.0005 1.1437 1.55 71.6 62.3-79.7 225269_s_at RBMS1 0.0005 1.1446 1.55 71.6 62.3-79.6 212158_at SDC2 0.0006 1.0977 1.39 70.8 61.6-79.1 209209_s_at PLEKHC1 0.0007 1.0309 1.82 69.7 60.3-77.9 209210_s_at PLEKHC1 0.0007 1.0325 1.82 69.7 60.3-78   205554_s_at ACTB:DNASE1L3 0.0007 1.0979 1.5 70.8 61.4-78.9 202283_at SERPINF1 0.0009 1.0003 1.47 69.2 59.8-77.5 209496_at RARRES2:LOC648925 0.0009 1.0318 1.6 69.7 60.3-77.9 224352_s_at CFL2 0.0009 1.0586 1.75 70.2 60.8-78.4 224663_s_at CFL2 0.0009 1.0575 1.75 70.2 60.8-78.4 214433_s_at SELENBP1 0.0009 1.0574 1.7 70.1 60.8-78.3 212592_at ENAM 0.0011 1.0024 2.58 69.2 59.8-77.5 213629_x_at MT1F 0.0012 0.9664 2.2 68.6 59.2-76.9 217165_x_at MT1F 0.0012 0.9649 2.2 68.5 59.2-76.9 203645_s_at CD163 0.0013 1.0231 1.9 69.6   60-77.9 215049_x_at CD163 0.0013 1.0215 1.9 69.5 60.1-77.8 206641_at TNFRSF17 0.0015 1.0206 2.08 69.5 60.1-77.8 227235_at GUCY1A3 0.0015 1.0116 2.69 69.4 59.8-77.6 229530_at GUCY1A3 0.0015 1.0115 2.69 69.3   60-77.6 212097_at CAV1 0.0016 1.0199 1.58 69.5 60.1-77.7 200884_at CKB 0.0019 0.9758 2.27 68.7 59.2-77   202133_at WWTR1 0.002 0.9917 1.48 69 59.5-77.4 204607_at HMGCS2 0.0022 0.8777 2.67 67 57.5-75.5 218559_s_at MAFB 0.0034 0.9595 1.66 68.4   59-76.8 201061_s_at STOM 0.0035 1.0165 1.21 69.4   60-77.7 201743_at CD14 0.0035 0.9627 1.58 68.5 59.1-76.9 204895_x_at MUC4:TAF5L:LOC650855:LOC645744 0.0039 1.0448 1.2 69.9 60.6-78.2 217109_at MUC4:TAF5L:LOC650855:LOC645744 0.0039 1.0458 1.2 69.9 60.6-78.1 217110_s_at MUC4:TAF5L:LOC650855:LOC645744 0.0039 1.0453 1.2 69.9 60.5-78.2 203382_s_at APOE 0.0044 0.9388 1.56 68.1 58.7-76.5 206664_at SI 0.0054 0.9293 2.79 67.9 58.4-76.3 242447_at LOC285382 0.0058 0.7401 1.26 64.4 54.9-73.2 209312_x_at HLA-DRB1:HLA- 0.0063 1.0636 1.51 70.3 60.9-78.5 DRB6:LOC731247:LOC730415: HLA-DRB4:HLA- DRB5:HLA- DRB3:LOC651845 215193_x_at HLA-DRB1:HLA- 0.0063 1.0646 1.51 70.3 60.9-78.5 DRB6:LOC731247:LOC730415: HLA-DRB4:HLA- DRB5:HLA- DRB3:LOC651845 224694_at ANTXR1 0.0071 0.9531 1.29 68.3 58.8-76.7 226811_at FAM46C 0.0085 0.9163 1.38 67.7 58.1-76.1 201150_s_at TIMP3 0.0091 0.9049 1.81 67.5 57.9-76   226682_at LOC283666 0.0099 0.7784 1.22 65.1 55.7-73.8 218468_s_at GREM1 0.0106 0.8585 3.03 66.6 57.2-75.2 218469_at GREM1 0.0106 0.8579 3.03 66.6 57.1-75.2 203240_at FCGBP:LOC651441:LOC652599 0.0121 0.7868 1.99 65.3 55.8-73.9 211538_s_at HSPA2 0.0123 0.8916 1.43 67.2 57.7-75.7 212091_s_at COL6A1 0.0126 0.848 1.45 66.4 56.9-74.9 213428_s_at COL6A1 0.0126 0.8474 1.45 66.4 56.9-74.9 226051_at SELM 0.0133 0.8606 1.32 66.7 57.1-75.1 200859_x_at FLNA:WTAP 0.0157 0.7975 1.59 65.5 55.9-74   213746_s_at FLNA:WTAP 0.0157 0.7959 1.59 65.5   56-74.2 214752_x_at FLNA:WTAP 0.0157 0.798 1.59 65.5   56-74.1 204570_at COX7A1 0.0161 0.8622 1.32 66.7 57.2-75.2 203729_at EMP3 0.0164 0.8043 1.41 65.6 56.1-74.3 223597_at ITLN1 0.021 0.7148 2.54 64 54.4-72.7 227735_s_at C10orf99 0.0218 0.7254 1.76 64.2 54.6-72.9 227736_at C10orf99 0.0218 0.7259 1.76 64.2 54.6-72.9 200621_at CSRP1 0.023 0.7246 1.39 64.1 54.6-72.9 204897_at PTGER4:LOC730002:LOC730882 0.0237 0.8114 1.41 65.8 56.2-74.4 204083_s_at PPIL5:TPM2 0.026 0.7531 1.53 64.7 55.2-73.4 211643_x_at HLA-C:HLA- 0.0268 0.9237 1.24 67.8 58.3-76.3 B:LOC730410:LOC652614:LOC732037 211644_x_at HLA-C:HLA- 0.0268 0.9229 1.24 67.8 58.3-76.2 B:LOC730410:LOC652614:LOC732037 214768_x_at HLA-C:HLA- 0.0268 0.9245 1.24 67.8 58.3-76.3 B:LOC730410:LOC652614:LOC732037 226147_s_at PIGR 0.0278 0.7282 1.59 64.2 54.6-73   229659_s_at PIGR 0.0278 0.7253 1.59 64.2 54.7-72.9 201300_s_at PRNP 0.0288 0.7985 1.24 65.5   56-74.1 210133_at CCL11 0.0361 0.8534 1.32 66.5   57-75.1 225353_s_at C1QC 0.0391 0.7457 1.36 64.5   55-73.2 201289_at CYR61 0.0425 0.7849 1.47 65.3 55.8-73.9 210764_s_at CYR61 0.0425 0.7836 1.47 65.2 55.6-73.9 200986_at SERPING1 0.0503 0.7672 1.44 64.9 55.4-73.6 204122_at TYROBP:ZNF160 0.053 0.8181 1.17 65.9 56.4-74.5 201667_at GJA1 0.0561 0.784 1.76 65.2 55.7-73.9 208789_at PTRF 0.0624 0.736 1.5 64.4 54.8-73.1 210107_at CLCA1 0.0681 0.7868 1.61 65.3 55.7-73.9 200665_s_at SPARC 0.0684 0.6714 1.45 63.1 53.6-72.1 212667_at SPARC 0.0684 0.6732 1.45 63.2 53.6-71.9 211964_at COL4A2 0.0738 0.7064 1.32 63.8 54.2-72.6 201858_s_at PRG1 0.0972 0.5559 1.25 60.9 51.3-69.9 201859_at PRG1 0.0972 0.5563 1.25 61 51.4-69.9 228241_at BCMP11 0.102 0.4028 1.28 58 48.4-67.1 217762_s_at RAB31 0.1041 0.8135 1.14 65.8 56.3-74.4 217764_s_at RAB31 0.1041 0.8132 1.14 65.8 56.2-74.5 202007_at NID1 0.105 0.7425 1.33 64.5   55-73.1 210495_x_at FN1 0.1121 0.5756 1.73 61.3 51.8-70.2 211719_x_at FN1 0.1121 0.5767 1.73 61.3 51.8-70.2 212464_s_at FN1 0.1121 0.5765 1.73 61.3 51.6-70.3 216442_x_at FN1 0.1121 0.5745 1.73 61.3 51.7-70.3 200600_at MSN 0.1499 0.7232 1.15 64.1 54.6-72.9 209138_x_at IGL@:LOC651536:LOC731062: 0.1551 0.681 1.26 63.3 53.8-72.2 CPVL:IGLV2-14:IGLV4- 3:IGLV3-25:IGLV3- 21:IL8:RPL14 216984_x_at IGL@:LOC651536:LOC731062: 0.1551 0.6808 1.26 63.3 53.8-72.2 CPVL:IGLV2-14:IGLV4- 3:IGLV3-25:IGLV3- 21:IL8:RPL14 217148_x_at IGL@:LOC651536:LOC731062: 0.1551 0.6808 1.26 63.3 53.9-72.1 CPVL:IGLV2-14:IGLV4- 3:IGLV3-25:IGLV3- 21:IL8:RPL14 201069_at MMP2 0.1755 0.6214 1.24 62.2 52.6-71   202403_s_at COL1A2:LOC728628 0.1891 0.6508 1.9 62.8 53.2-71.5 202768_at FOSB 0.2076 0.6392 2.17 62.5 52.9-71.5 209116_x_at HBB 0.2357 0.6432 1.28 62.6 52.9-71.4 211696_x_at HBB 0.2357 0.6436 1.28 62.6 53.1-71.4 217232_x_at HBB 0.2357 0.6444 1.28 62.6 53.1-71.5 205267_at POU2AF1 0.2389 0.6573 1.18 62.9 53.3-71.7 201852_x_at COL3A1 0.2551 0.5524 1.35 60.9 51.3-69.8 211161_s_at COL3A1 0.2551 0.5509 1.35 60.9 51.3-69.9 215076_s_at COL3A1 0.2551 0.5513 1.35 60.9 51.3-69.8 217378_x_at LOC391427 0.2627 0.2759 1.15 55.5 45.9-64.8 223235_s_at SMOC2 0.2701 0.656 1.34 62.9 53.2-71.7 204673_at MUC5AC:LOC652741:MUC2 0.2802 0.8531 1.22 66.5   57-75.1 212414_s_at Sep-06 0.3109 0.5714 1.21 61.2 51.7-70.2 201744_s_at LUM 0.3157 0.5425 1.54 60.7   51-69.7 202953_at C1QB 0.3668 0.4998 1.24 59.9 50.3-68.9 209651_at TGFB1I1 0.4093 0.4932 1.35 59.7 50.2-68.8 212224_at ALDH1A1 0.4232 0.3525 1.4 57 47.4-66.2 211596_s_at LRIG1 0.4614 0.5988 1.26 61.8 52.2-70.7 218541_s_at C8orf4 0.475 0.4838 1.44 59.6   50-68.5 208894_at HLA-DRA:HLA-DQA1, HLA- 0.4823 0.3234 1.29 56.4 46.8-65.6 DRA:HLA-DQA1, HLA- DRA:HLA-DQA1 210982_s_at HLA-DRA:HLA-DQA1, HLA- 0.4823 0.3228 1.29 56.4 46.8-65.6 DRA:HLA-DQA1, HLA- DRA:HLA-DQA1 227404_s_at EGR1 0.4851 0.5387 1.38 60.6   51-69.6 216401_x_at LOC652745 0.4864 0.1728 1.09 53.4 43.9-62.8 216207_x_at IGKV1D-13 0.5177 0.16 1.1 53.2 43.6-62.6 203477_at COL15A1 0.6601 0.5385 1.22 60.6 51.1-69.7 211959_at IGFBP5 0.7663 0.3526 1.25 57 47.4-66.2 201105_at LGALS1 0.8555 0.4634 1.16 59.2 49.6-68.2 201438_at COL6A3 0.8739 0.4434 1.2 58.8 49.2-67.8 212671_s_at HLA-DQA1:HLA- 0.8836 0.5398 1.28 60.6 51.1-69.7 DQA2, HLA- DQA1:LOC731682:HLA- DQA2 227725_at ST6GALNAC1 0.9452 0.2599 1.15 55.2 45.6-64.5 211990_at HLA-DPA1, HLA-DPA1 0.9664 0.417 1.39 58.3 48.7-67.4 211991_s_at HLA-DPA1, HLA-DPA1 0.9664 0.4166 1.39 58.3 48.7-67.4 217179_x_at IGLV1-44 0.9777 0.2852 1.07 55.7 46.1-65   234764_x_at IGLV1-44 0.9777 0.2847 1.07 55.7 46.1-64.9 224342_x_at IGLV1-44 0.9777 0.2848 1.07 55.7 46.1-65   215176_x_at NTN2L:IGKC:IGKV1- 0.9858 0.4167 1.43 58.3 48.6-67.3 5:GJB6:HLA-C 216576_x_at NTN2L:IGKC:IGKV1- 0.9858 0.4171 1.43 58.3 48.6-67.4 5:GJB6:HLA-C 201645_at TNC 0.9905 0.3687 1.09 57.3 47.7-66.6 214414_x_at HBA1:HBA2, HBA1:HBA2 0.9979 0.4707 1.21 59.3 49.7-68.3 204018_x_at HBA1:HBA2, HBA1:HBA2 0.9979 0.4711 1.21 59.3 49.7-68.3 209458_x_at HBA1:HBA2, HBA1:HBA2 0.9979 0.4727 1.21 59.3 49.7-68.4 211699_x_at HBA1:HBA2, HBA1:HBA2 0.9979 0.4697 1.21 59.3 49.7-68.3 211745_x_at HBA1:HBA2, HBA1:HBA2 0.9979 0.4708 1.21 59.3 49.8-68.3 217414_x_at HBA1:HBA2, HBA1:HBA2 0.9979 0.469 1.21 59.3 49.7-68.4

TABLE 2 Gene Sens- Symbol ValidPS_DOWN Signif. FDR D.val5 FC Spec CI (95) GCNT2 935239-HuGene_st:225205-HuGene_st:1026280- 2.16E−27 3.9513 13.36 97.6 94.2-99.2 HuGene_st:668101-HuGene_st:1099985- HuGene_st:698568-HuGene_st:134540- HuGene_st:697147-HuGene_st:250092- HuGene_st:611927-HuGene_st:972833- HuGene_st:168891-HuGene_st:990860- HuGene_st:109287-HuGene_st:322116- HuGene_st:231019-HuGene_st:211020_at:959570- HuGene_st:858764-HuGene_st:215593_at:820195- HuGene_st:239606_at:41059-HuGene_st:669940- HuGene_st:215595_x_at:230788_at GUCA2B 276512-HuGene_st:1006871-HuGene_st:948364- 7.04E−25 3.6268 51.78 96.5 92.4-98.6 HuGene_st:46575-HuGene_st:207502_at:436788- HuGene_st:485636-HuGene_st:60132- HuGene_st:608718-HuGene_st:779511- HuGene_st:132431-HuGene_st:974232- HuGene_st:425596-HuGene_st:308287- HuGene_st:800088-HuGene_st:827119- HuGene_st:233789-HuGene_st:623623-HuGene_st GUCA1B 207003_at 7.32E−25 3.5625 10.7 96.3 91.9-98.5 CA4 636392-HuGene_st:206209_s_at:365396- 1.73E−24 3.6291 10.41 96.5 92.4-98.7 HuGene_st:978203-HuGene_st:987169- HuGene_st:638557-HuGene_st:206208_at:1033858- HuGene_st:597808-HuGene_st:756864- HuGene_st:326439-HuGene_st:356096- HuGene_st:478435-HuGene_st:31642- HuGene_st:682778-HuGene_st:1006162- HuGene_st:673533-HuGene_st:491473- HuGene_st:822299-HuGene_st:871453- HuGene_st:209666-HuGene_st:465368- HuGene_st:354896-HuGene_st SLC4A4 810103-HuGene_st:634869- 2.23E−23 3.6301 3.58 96.5 92.4-98.6 HuGene_st:210739_x_at:211494_s_at:268096- HuGene_st:70822-HuGene_st:940785- HuGene_st:484105- HuGene_st:210738_s_at:203908_at:99375- HuGene_st:238833-HuGene_st:149464- HuGene_st:874564-HuGene_st:161948- HuGene_st:501640-HuGene_st:65687- HuGene_st:886057-HuGene_st:495376- HuGene_st:247215-HuGene_st:847550- HuGene_st:190252-HuGene_st:244077- HuGene_st:477911-HuGene_st:904959- HuGene_st:218417-HuGene_st:1554027_a_at AQP8 486167-HuGene_st:126752-HuGene_st:93102- 2.98E−22 3.3311 10.82 95.2 90.3-97.9 HuGene_st:1090469-HuGene_st:980308- HuGene_st:107169-HuGene_st:829020- HuGene_st:1053234-HuGene_st:954102- HuGene_st:40331-HuGene_st:206784_at:990703- HuGene_st:459706-HuGene_st:863327- HuGene_st:965233-HuGene_st:459009- HuGene_st:180228-HuGene_st:944315- HuGene_st:814773-HuGene_st:810460- HuGene_st:228837-HuGene_st CA1 632246-HuGene_st:205950_s_at:382371- 3.15E−22 3.3666 38.27 95.4 90.6-98   HuGene_st:1004598-HuGene_st:405837- HuGene_st:551543-HuGene_st:242482- HuGene_st:267733-HuGene_st:1074039- HuGene_st:107073-HuGene_st:485365- HuGene_st:254908-HuGene_st:257502- HuGene_st:333301-HuGene_st:180359- HuGene_st:696950-HuGene_st:588557- HuGene_st:381399-HuGene_st:495540- HuGene_st:384192-HuGene_st:205949_at ABCG2 236197-HuGene_st:10623-HuGene_st:1005470- 1.09E−21 3.2599 31.53 94.8 89.8-97.7 HuGene_st:140860-HuGene_st:492719- HuGene_st:417387-HuGene_st:113831- HuGene_st:507347-HuGene_st:944251- HuGene_st:175319-HuGene_st:784920- HuGene_st:709551-HuGene_st:136344- HuGene_st:689536-HuGene_st:209735_at:167748- HuGene_st:759590-HuGene_st:805222- HuGene_st:945575-HuGene_st:294363- HuGene_st:958524-HuGene_st:402982- HuGene_st:301335-HuGene_st OSTbeta 552746-HuGene_st:57742-HuGene_st:461622- 6.23E−21 3.188 7.15 94.5 89.2-97.5 HuGene_st:965982-HuGene_st:413709- HuGene_st:230830_at:232719-HuGene_st:165400- HuGene_st:203597-HuGene_st:1025456- HuGene_st:625341-HuGene_st:881755- HuGene_st:490180-HuGene_st:113547- HuGene_st:605512-HuGene_st:179662- HuGene_st:280309-HuGene_st:647118-HuGene_st MGC13057 926449-HuGene_st:317301-HuGene_st:834797- 6.94E−21 3.2029 3.18 94.5 89.3-97.5 HuGene_st:173388-HuGene_st:127937- HuGene_st:182395-HuGene_st:800172- HuGene_st:1041848-HuGene_st:93911- HuGene_st:810617-HuGene_st:1035428- HuGene_st:644866-HuGene_st:343402- HuGene_st:223754_at:228195_at:509933-HuGene_st CLDN23 403960-HuGene_st:25144-HuGene_st:947653- 4.27E−20 3.0777 3.47 93.8 88.2-97.1 HuGene_st:228704_s_at:228706_s_at:320375- HuGene_st:441629:HuGene_st:367414- HuGene_st:855269-HuGene_st:228707_at:788659- HuGene_st:698816-HuGene_st:95789- HuGene_st:270197-HuGene_st:472976- HuGene_st:280539-HuGene_st:1056334- HuGene_st:516288-HuGene_st:579963-HuGene_st PKIB 866170-HuGene_st:1055812-HuGene_st:264946- 5.94E−20 3.1232 3.28 94.1 88.7-97.3 HuGene_st:684057-HuGene_st:124791- HuGene_st:134561-HuGene_st:1026756- HuGene_st:468593-HuGene_st:1045852- HuGene_st:939917-HuGene_st:110205- HuGene_st:660721-HuGene_st:905229- HuGene_st:223551_at:610426-HuGene_st SEMA6D 855766-HuGene_st:233882_s_at:543564- 6.07E−20 3.092 4.27 93.9 88.4-97.2 HuGene_st:277987-HuGene_st:1075165- HuGene_st:220574_at:732853-HuGene_st:410940- HuGene_st:384488-HuGene_st:1041056- HuGene_st:233801_s_at:535378-HuGene_st:477671- HuGene_st:626423-HuGene_st:101599- HuGene_st:714098-HuGene_st:301505- HuGene_st:53682-HuGene_st:177281- HuGene_st:596415- HuGene_st:244746_at:226492_at:699792- HuGene_st:73748-HuGene_st:692437-HuGene_st CLCA4 220026_at:1000955-HuGene_st:215807- 1.25E−19 3.1922 16.3 94.5 89.2-97.5 HuGene_st:108406-HuGene_st:538359- HuGene_st:366726-HuGene_st:727431- HuGene_st:240891-HuGene_st:485685- HuGene_st:205213-HuGene_st:476179- HuGene_st:283676-HuGene_st:933390- HuGene_st:601908-HuGene_st:844633- HuGene_st:846667-HuGene_st:99723- HuGene_st:376041-HuGene_st:71188- HuGene_st:261183-HuGene_st:498330- HuGene_st:500064-HuGene_st:785031-HuGene_st TP53INP2 224836_at:294906-HuGene_st:857693- 1.45E−19 3.0229 3.78 93.5 87.8-96.9 HuGene_st:852970-HuGene_st:594178- HuGene_st:868173-HuGene_st:353925- HuGene_st:212485-HuGene_st:804363- HuGene_st:778869-HuGene_st:427072- HuGene_st:451529-HuGene_st:808765- HuGene_st:205314-HuGene_st:415164- HuGene_st:1048358-HuGene_st MS4A12 220834_at:582400-HuGene_st:354845- 2.13E−19 3.2962 7.15 95   90-97.8 HuGene_st:341876-HuGene_st:769180- HuGene_st:740541-HuGene_st:436753- HuGene_st:570027-HuGene_st:26519- HuGene_st:956581-HuGene_st:335315- HuGene_st:206721-HuGene_st:589444- HuGene_st:16629-HuGene_st:113533- HuGene_st:201614-HuGene_st:774878- HuGene_st:786494-HuGene_st:493550- HuGene_st:403871-HuGene_st:192686- HuGene_st:846528-HuGene_st:249799-HuGene_st TRPM6 767074-HuGene_st:695352-HuGene_st:411125- 2.25E−19 3.0106 7.5 93.4 87.7-96.8 HuGene_st:221102_s_at:234864_s_at:240389_at:358229- HuGene_st:755964-HuGene_st:840301- HuGene_st:959234-HuGene_st:782639- HuGene_st:833079-HuGene_st:1066034- HuGene_st:678013-HuGene_st:249083- HuGene_st:143934-HuGene_st:159130- HuGene_st:486486-HuGene_st:185057- HuGene_st:878793-HuGene_st:133981- HuGene_st:224412_s_at:202194-HuGene_st XLKD1 520080-HuGene_st:1091117-HuGene_st:943125- 3.60E−19 2.94 7.44 92.9 87.1-96.6 HuGene_st:444068-HuGene_st:648558- HuGene_st:346991-HuGene_st:1006205- HuGene_st:373107-HuGene_st:682535- HuGene_st:1083245-HuGene_st:863143- HuGene_st:820120-HuGene_st:1044561- HuGene_st:220037_s_at:541228-HuGene_st:220256- HuGene_st:289122-HuGene_st:219059_s_at:246683- HuGene_st:775976-HuGene_st:207399- HuGene_st:1052557-HuGene_st:92121-HuGene_st ADH1B 1078343-HuGene_st:512808-HuGene_st:614446- 4.70E−19 3.0172 4.67 93.4 87.7-96.9 HuGene_st:910188-HuGene_st:422504- HuGene_st:731361-HuGene_st:209612_s_at:258079- HuGene_st:568239-HuGene_st:879930- HuGene_st:420417-HuGene_st:1025048- HuGene_st:908335-HuGene_st:654633- HuGene_st:947292-HuGene_st:1087125- HuGene_st:1004870-HuGene_st:209613_s_at:579636- HuGene_st:681018-HuGene_st:822774-HuGene_st PRDX6 353187-HuGene_st:520885-HuGene_st:919334- 5.56E−19 2.8414 2.76 92.2 86.1-96.1 HuGene_st:646105-HuGene_st:390352- HuGene_st:200844_s_at:855125- HuGene_st:200845_s_at:54231-HuGene_st:612931- HuGene_st:837652-HuGene_st:538086- HuGene_st:796167-HuGene_st:208992- HuGene_st:39945-HuGene_st:489353- HuGene_st:963499-HuGene_st:376244- HuGene_st:297536-HuGene_st:495777- HuGene_st:1005253-HuGene_st:833460-HuGene_st CA2 762141-HuGene_st:111686-HuGene_st:512916- 5.87E−19 2.9625 9.22 93.1 87.2-96.7 HuGene_st:9132-HuGene_st:995083: HuGene_st:209301_at:578483-HuGene_st:583428- HuGene_st:961832-HuGene_st:11748- HuGene_st:1056641-HuGene_st:545067- HuGene_st:952781-HuGene_st:689246- HuGene_st:246103-HuGene_st:803284- HuGene_st:828842-HuGene_st:694989- HuGene_st:808226-HuGene_st:199030-HuGene_st EDN3 314103-HuGene_st:217154_s_at:820613- 6.42E−19 2.937 11.21 92.9   87-96.5 HuGene_st:1050996-HuGene_st:348157- HuGene_st:338856-HuGene_st:594687- HuGene_st:38595-HuGene_st:270770- HuGene_st:817067-HuGene_st:766407- HuGene_st:256284-HuGene_st:208399_s_at:200417- HuGene_st:496738-HuGene_st:590141- HuGene_st:137170-HuGene_st:499250- HuGene_st:478524-HuGene_st:720694- HuGene_st:543565-HuGene_st MIER3 884917-HuGene_st:740856-HuGene_st:107094- 9.14E−19 2.9162 3.91 92.8 86.8-96.5 HuGene_st:408774-HuGene_st:461523- HuGene_st:153511-HuGene_st:207042- HuGene_st:737492-HuGene_st:43443- HuGene_st:614740-HuGene_st:1559652_at:783045- HuGene_st:887606-HuGene_st:996253- HuGene_st:1041635-HuGene_st:142612- HuGene_st:1553336_a_at:220555-HuGene_st:975347- HuGene_st:470750-HuGene_st:1554450_s_at:804524- HuGene_st:265536-HuGene_st:774142- HuGene_st:231975_s_at:34726- HuGene_st:1554449_at:228961_at ABCA8 57305-HuGene_st:111752-HuGene_st:61357- 1.26E−18 2.9165 6.82 92.8 86.8-96.5 HuGene_st:123451-HuGene_st:740746- HuGene_st:512280-HuGene_st:389185- HuGene_st:427721-HuGene_st:346028- HuGene_st:224566-HuGene_st:149653- HuGene_st:680699-HuGene_st:76772- HuGene_st:742091-HuGene_st:423333- HuGene_st:559944-HuGene_st:341399- HuGene_st:1565780_at:863400-HuGene_st:921748- HuGene_st:623719-HuGene_st:204719_at:123143- HuGene_st:1077391-HuGene_st METTL7A 278779-HuGene_st:481332-HuGene_st:787584- 1.35E−18 3.1231 1.93 94.1 88.6-97.3 HuGene_st:989793-HuGene_st:278513- HuGene_st:424901-HuGene_st:551005- HuGene_st:921169-HuGene_st:125176- HuGene_st:277465-HuGene_st:560742- HuGene_st:207761_s_at:367459-HuGene_st:224782- HuGene_st:660194-HuGene_st:266654- HuGene_st:1086300-HuGene_st:134633- HuGene_st:211424_x_at:273973-HuGene_st:947408- HuGene_st:209703_x_at:617184-HuGene_st:864197- HuGene_st:10061-HuGene_st DPT 876245-HuGene_st:1036210-HuGene_st:214758- 1.53E−18 2.8977 9.07 92.6 86.7-96.4 HuGene_st:1005554-HuGene_st:178625- HuGene_st:701967-HuGene_st:35076- HuGene_st:33432-HuGene_st:897771- HuGene_st:304494-HuGene_st:445757- HuGene_st:491297-HuGene_st:646408- HuGene_st:842542-HuGene_st:87795- HuGene_st:213068_at:207977_s_at:553389- HuGene_st:477075-HuGene_st:213071_at:1046282- HuGene_st MGC4172 339712-HuGene_st:1089815-HuGene_st:265870- 1.74E−18 2.9044 3.74 92.7 86.7-96.4 HuGene_st:895908-HuGene_st:226292- HuGene_st:322910-HuGene_st:575887- HuGene_st:416485-HuGene_st:1055581- HuGene_st:1088692-HuGene_st:442194- HuGene_st:218756_s_at:775684-HuGene_st:773137- HuGene_st:373028-HuGene_st:512667- HuGene_st:164027-HuGene_st:541185- HuGene_st:593729-HuGene_st:506796-HuGene_st FNBP1 728822-HuGene_st:845505-HuGene_st:1054016- 1.76E−18 3.0483 2.04 93.6 88-97 HuGene_st:383098-HuGene_st:230389_at:31865- HuGene_st:981305-HuGene_st:213940_s_at:755179- HuGene_st:839717- HuGene_st:230086_at:239453_at:985213- HuGene_st:125814:HuGene_st:451336- HuGene_st:22306-HuGene_st:540957- HuGene_st:277486-HuGene_st:314000- HuGene_st:212288_at:662225-HuGene_st:524650- HuGene_st:605840-HuGene_st:180978- HuGene_st:604436-HuGene_st EDG2 816816-HuGene_st:309471-HuGene_st:77020- 2.44E−18 2.8838 3.19 92.5 86.5-96.3 HuGene_st:289373-HuGene_st:10014- HuGene_st:981213-HuGene_st:204038_s_at:1035537- HuGene_st:75833-HuGene_st:781880- HuGene_st:494373-HuGene_st:745317- HuGene_st:497715-HuGene_st:693528- HuGene_st:806817-HuGene_st:812294- HuGene_st:204036_at:241773_at:176887- HuGene_st:441141-HuGene_st:189399- HuGene_st:723788-HuGene_st:204037_at:485543- HuGene_st:1014086-HuGene_st:232716_at SFRP1 722739-HuGene_st:1095144-HuGene_st:1039611- 2.77E−18 2.8631 15.53 92.4 86.3-96.2 HuGene_st:836419-HuGene_st:34446- HuGene_st:50826-HuGene_st:483033- HuGene_st:202036_s_at:988375-HuGene_st:774922- HuGene_st:228413_s_at:665988-HuGene_st:302344- HuGene_st:202035_s_at:412438-HuGene_st:995086- 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HuGene_st:613655-HuGene_st:337174- HuGene_st:268017-HuGene_st:81041- HuGene_st:85506-HuGene_st:798272- HuGene_st:925916-HuGene_st:780714- HuGene_st:138025-HuGene_st ENTPD5 760608-HuGene_st:231676_s_at:831252- 1.43E−12 2.1686 3.01 86.1 78.3-91.7 HuGene_st:497317-HuGene_st:712688- HuGene_st:259180-HuGene_st:832617- HuGene_st:785663-HuGene_st:205757_at:553118- HuGene_st:384386-HuGene_st:911183- HuGene_st:440835-HuGene_st:150070- HuGene_st:821276-HuGene_st:14461- HuGene_st:520930-HuGene_st:181407- HuGene_st:294287-HuGene_st:226594_at:551172- HuGene_st:1040872-HuGene_st:1048020-HuGene_st MALL 209373_at:628866-HuGene_st:1092892- 2.10E−12 2.1585 3.96 86 78.2-91.7 HuGene_st:488187-HuGene_st:515617- HuGene_st:649198-HuGene_st:991653- HuGene_st:301852-HuGene_st:1067925- HuGene_st:451072-HuGene_st:102723- HuGene_st:670639-HuGene_st:848482- HuGene_st:928502-HuGene_st:787192- HuGene_st:916920-HuGene_st:959742- HuGene_st:711672-HuGene_st:20252- HuGene_st:225337-HuGene_st MFAP4 308095-HuGene_st:1004622-HuGene_st:754788- 2.96E−12 2.1813 2.51 86.2 78.5-91.9 HuGene_st:212713_at:911082-HuGene_st:767889- HuGene_st:5569-HuGene_st:308458- HuGene_st:699815-HuGene_st:658908- HuGene_st:73048-HuGene_st:515283- HuGene_st:671512-HuGene_st:792571- HuGene_st:689375-HuGene_st:590963- HuGene_st:821074-HuGene_st:132543- HuGene_st:655171-HuGene_st:341975- HuGene_st:1048103-HuGene_st SRI 1018107-HuGene_st:929936-HuGene_st:596109- 3.03E−12 2.0985 2.43 85.3 77.4-91.1 HuGene_st:469173-HuGene_st:235900- HuGene_st:303619-HuGene_st:792372- HuGene_st:1034405-HuGene_st:145638- HuGene_st:76828-HuGene_st:103032- HuGene_st:788729-HuGene_st:262807- HuGene_st:452805-HuGene_st:208921_s_at:863794- HuGene_st:172167-HuGene_st:309679- HuGene_st:1058573-HuGene_st:208920_at:235325- HuGene_st:813384-HuGene_st SGK 425210-HuGene_st:201739_at:137804- 3.12E−12 2.1186 4.08 85.5 77.7-91.4 HuGene_st:182666-HuGene_st:271994- HuGene_st:629671-HuGene_st:350855- HuGene_st:179953-HuGene_st:1039396- HuGene_st:664449-HuGene_st:1049246- HuGene_st:1100037-HuGene_st:1094410- HuGene_st:677142-HuGene_st:231137- HuGene_st:393473-HuGene_st IGHM 1001583-HuGene_st:162285-HuGene_st:1061429- 3.25E−12 2.3285 1.73 87.8 80.4-93   HuGene_st:359832-HuGene_st:60182: HuGene_st:1002550-HuGene_st:311771- HuGene_st:790352-HuGene_st:977059- HuGene_st:587401-HuGene_st:343597- HuGene_st:25657-HuGene_st:640259- HuGene_st:184414-HuGene_st:336659- HuGene_st:1008406-HuGene_st:1044209- HuGene_st:519020-HuGene_st:427467- HuGene_st:669553-HuGene_st:722843- HuGene_st:126162-HuGene_st:654578- HuGene_st:146515-HuGene_st:1100721- HuGene_st:823307-HuGene_st:899494- HuGene_st:952685-HuGene_st:215118_s_at:235399- HuGene_st:802521-HuGene_st:126175- HuGene_st:910847-HuGene_st:212827_at:722700- HuGene_st:173623-HuGene_st:1042953- HuGene_st:38807-HuGene_st:408026-HuGene_st ZCWPW2 1001583-HuGene_st:162285-HuGene_st:1061429- 3.25E−12 2.3264 1.73 87.8 80.4-93   HuGene_st:359832-HuGene_st:60182- HuGene_st:1002550-HuGene_st:311771- HuGene_st:790352-HuGene_st:977059- HuGene_st:587401-HuGene_st:343597- HuGene_st:25657-HuGene_st:640259- HuGene_st:184414-HuGene_st:336659- HuGene_st:1008406-HuGene_st:1044209- HuGene_st:519020-HuGene_st:427467- HuGene_st:669553-HuGene_st:722843- HuGene_st:126162-HuGene_st:654578- HuGene_st:146515-HuGene_st:1100721- HuGene_st:823307-HuGene_st:899494- HuGene_st:952685-HuGene_st:215118_s_at:235399- HuGene_st:802521-HuGene_st:126175- HuGene_st:910847-HuGene_st:212827_at:722700- HuGene_st:173623-HuGene_st:1042953- HuGene_st:38807-HuGene_st:408026-HuGene_st IL8 1001583-HuGene_st:162285-HuGene_st:1061429- 3.28E−12 2.3266 1.73 87.8 80.4-93   HuGene_st:359832-HuGene_st:60182- HuGene_st:1002550-HuGene_st:311771- HuGene_st:790352-HuGene_st:977059- HuGene_st:587401-HuGene_st:343597- HuGene_st:25657-HuGene_st:640259- HuGene_st:184414-HuGene_st:336659- HuGene_st:1008406-HuGene_st:1044209- HuGene_st:519020-HuGene_st:427467- HuGene_st:669553-HuGene_st:722843- HuGene_st:126162-HuGene_st:654578- HuGene_st:146515-HuGene_st:1100721- HuGene_st:823307-HuGene_st:899494- HuGene_st:952685-HuGene_st:215118_s_at:235399- HuGene_st:802521-HuGene_st:126175- HuGene_st:910847-HuGene_st:212827_at:722700- HuGene_st:173623-HuGene_st:1042953- HuGene_st:38807-HuGene_st:408026-HuGene_st IGHA1 1001583-HuGene_st:162285-HuGene_st:1061429- 3.28E−12 2.3276 1.73 87.8 80.4-93   HuGene_st:359832-HuGene_st:60182- HuGene_st:1002550-HuGene_st:311771- HuGene_st:790352-HuGene_st:977059- HuGene_st:587401-HuGene_st:343597- HuGene_st:25657-HuGene_st:640259- HuGene_st:184414-HuGene_st:336659- HuGene_st:1008406-HuGene_st:235364_at:1044209- HuGene_st:519020-HuGene_st:427467- HuGene_st:669553-HuGene_st:722843- HuGene_st:208763_s_at:207001_x_at:126162- HuGene_st:654578-HuGene_st:146515- HuGene_st:1100721-HuGene_st:823307- HuGene_st:899494-HuGene_st:952685- HuGene_st:215118_s_at:235399-HuGene_st:802521- HuGene_st:126175-HuGene_st:910847- HuGene_st:212827_at:722700-HuGene_st:173623- HuGene_st:1042953-HuGene_st:38807- HuGene_st:408026-HuGene_st MGC14376 20793-HuGene_st:228915-HuGene_st:630688- 3.39E−12 2.1014 2.58 85.3 77.5-91.2 HuGene_st:117325-HuGene_st:532108- HuGene_st:373670-HuGene_st:552164- HuGene_st:1004615-HuGene_st:527421- HuGene_st:880155-HuGene_st:10973- HuGene_st:395595-HuGene_st:312241- HuGene_st:644241-HuGene_st:214696_at:234825- HuGene_st:1002029-HuGene_st:1032648-HuGene_st ETHE1 1008653-HuGene_st:507181-HuGene_st:435886- 3.46E−12 2.2097 1.75 86.5 78.9-92.1 HuGene_st:296660-HuGene_st:764234- HuGene_st:918966-HuGene_st:1078682- HuGene_st:789091-HuGene_st:100698- HuGene_st:204034_at:301334-HuGene_st:869871- HuGene_st:841094-HuGene_st:612751- HuGene_st:43763-HuGene_st:853527- HuGene_st:593768-HuGene_st:52787- HuGene_st:555225-HuGene_st:1028299-HuGene_st CES2 817786-HuGene_st:63720-HuGene_st:527565- 3.51E−12 2.0993 2.87 85.3 77.4-91.1 HuGene_st:678893-HuGene_st:209668_x_at:825633- HuGene_st:336873-HuGene_st:409854- HuGene_st:213509_x_at:134988-HuGene_st:446296- HuGene_st:842160-HuGene_st:827636- HuGene_st:209667_at:882043-HuGene_st:279172- HuGene_st:1081267-HuGene_st:756682- HuGene_st:90632-HuGene_st GPM6B 599862-HuGene_st:754598-HuGene_st:503642- 4.04E−12 2.1563 3.59 86 78.2-91.6 HuGene_st:224935-HuGene_st:754449- HuGene_st:577489-HuGene_st:1073242- HuGene_st:560873-HuGene_st:1003662- HuGene_st:430217-HuGene_st:903323- HuGene_st:231962-HuGene_st:244945- HuGene_st:562460-HuGene_st:583561- HuGene_st:209168_at SYNPO2 800385-HuGene_st:938576-HuGene_st:54552- 5.07E−12 2.1029 6.43 85.3 77.5-91.2 HuGene_st:946854-HuGene_st:278208- HuGene_st:170777-HuGene_st:796143- HuGene_st:544243-HuGene_st:469048- HuGene_st:364454-HuGene_st:400491- HuGene_st:22204-HuGene_st:315299- HuGene_st:526384-HuGene_st:841867- HuGene_st:244108_at:2158-HuGene_st:283531- HuGene_st:407855- HuGene_st:225721_at:225720_at:225895_at:225894_at: 1017102-HuGene_st:227662_at:232119_at GCG 1044997-HuGene_st:682227-HuGene_st:368693- 5.58E−12 2.1165 12.56 85.5 77.7-91.3 HuGene_st:25836-HuGene_st:228935- HuGene_st:1030502-HuGene_st:12466- HuGene_st:1098133-HuGene_st:994392- HuGene_st:581476-HuGene_st:799068- HuGene_st:350795-HuGene_st:705389- HuGene_st:981135-HuGene_st:736837- HuGene_st:253854-HuGene_st:1032660- HuGene_st:273941-HuGene_st:206422_at:940866- HuGene_st:514731-HuGene_st MGP 696658-HuGene_st:618386- 6.11E−12 2.1428 4.68 85.8   78-91.5 HuGene_st:202291_s_at:195765-HuGene_st:3486- HuGene_st:829319-HuGene_st:731815- HuGene_st:829950-HuGene_st:601468- HuGene_st:366689-HuGene_st:460503- HuGene_st:712045-HuGene_st:545937- HuGene_st:148839-HuGene_st:704906- HuGene_st:612318-HuGene_st:708651- HuGene_st:722064-HuGene_st:846497- HuGene_st:1084237-HuGene_st:854168-HuGene_st PDE9A 779446-HuGene_st:768516-HuGene_st:609563- 6.56E−12 2.145 3.91 85.8   78-91.5 HuGene_st:387613-HuGene_st:594122- HuGene_st:774367-HuGene_st:221476- HuGene_st:140410-HuGene_st:812534- HuGene_st:581440-HuGene_st:205593_s_at:142832- HuGene_st:767027-HuGene_st:464973- HuGene_st:97182-HuGene_st:128487- HuGene_st:206471-HuGene_st:878522- HuGene_st:237139_at:988884-HuGene_st:237283_at LRRC19 177641-HuGene_st:1070020-HuGene_st:1055140- 6.75E−12 2.0763 4.51 85 77.1-91   HuGene_st:525999-HuGene_st:937256- HuGene_st:620791-HuGene_st:891251- HuGene_st:707559-HuGene_st:892056- HuGene_st:764919-HuGene_st:382143- HuGene_st:52584-HuGene_st:920414- HuGene_st:1028155-HuGene_st:755055- HuGene_st:678651-HuGene_st:1080156- HuGene_st:530282-HuGene_st:523877- HuGene_st:335198-HuGene_st:787709- HuGene_st:153175-HuGene_st:220376_at HSD11B2 78582-HuGene_st:653519-HuGene_st:630341- 6.97E−12 2.0895 2.53 85.2 77.3-91.1 HuGene_st:919091-HuGene_st:132633- HuGene_st:907106-HuGene_st:621993- HuGene_st:1089280-HuGene_st:34729- HuGene_st:342165-HuGene_st:887157- HuGene_st:323862-HuGene_st:870050- HuGene_st:204130_at:635792-HuGene_st:606173- HuGene_st:867938-HuGene_st:113467- HuGene_st:806665-HuGene_st GNG2 1555766_a_at:224965_at:1011730-HuGene_st:77527- 7.25E−12 2.1437 1.91 85.8   78-91.5 HuGene_st:669616-HuGene_st:223943_s_at:938512- HuGene_st:450519-HuGene_st:1025129- HuGene_st:30927-HuGene_st:382458- HuGene_st:330996-HuGene_st:545415- HuGene_st:774093-HuGene_st:758152- HuGene_st:176111-HuGene_st:743969-HuGene_st GCNT3 230376_at:254999-HuGene_st:476622- 8.39E−12 2.0861 3.94 85.2 77.2-91   HuGene_st:219508_at:452671-HuGene_st:732602- HuGene_st:306264-HuGene_st:696871- HuGene_st:721027-HuGene_st:235453- HuGene_st:676136-HuGene_st:777254- HuGene_st:506598-HuGene_st:598423- HuGene_st:699538-HuGene_st:220940- HuGene_st:804174-HuGene_st:12527- HuGene_st:802770-HuGene_st:403287- HuGene_st:351721-HuGene_st:581784- HuGene_st:700724-HuGene_st:398939-HuGene_st UGT1A6 116025-HuGene_st:6488-HuGene_st:881135- 1.32E−11 2.07 4.56 85   77-90.9 HuGene_st:230953_at:221304_at:221305_s_at:511516- HuGene_st:594963-HuGene_st:396121- HuGene_st:123777-HuGene_st:1016481- HuGene_st:204532_x_at:683377-HuGene_st:1055169- HuGene_st:1035103-HuGene_st:1088102- HuGene_st:207126_x_at:42874- HuGene_st:215125_s_at:206094_x_at:208596_s_at:97211- HuGene_st:1009861-HuGene_st:603368- HuGene_st:232654_s_at:625897-HuGene_st:998604- HuGene_st UGT1A8 116025-HuGene_st:6488-HuGene_st:881135- 1.32E−11 2.0687 4.56 85   77-90.9 HuGene_st:230953_at:221304_at:221305_s_at:511516- HuGene_st:594963-HuGene_st:396121- HuGene_st:123777-HuGene_st:1016481- HuGene_st:204532_x_at:683377-HuGene_st:1055169- HuGene_st:1035103-HuGene_st:1088102- HuGene_st:207126_x_at:42874- HuGene_st:215125_s_at:206094_x_at:208596_s_at:97211- HuGene_st:1009861-HuGene_st:603368- HuGene_st:232654_s_at:625897-HuGene_st:998604- HuGene_st UGT1A1 116025-HuGene_st:6488-HuGene_st:881135- 1.32E−11 2.0661 4.56 84.9   77-90.8 HuGene_st:230953_at:221304_at:221305_s_at:511516- HuGene_st:594963-HuGene_st:396121- HuGene_st:123777-HuGene_st:1016481- HuGene_st:204532_x_at:683377-HuGene_st:1055169- HuGene_st:1035103-HuGene_st:1088102- HuGene_st:207126_x_at:42874- HuGene_st:215125_s_at:206094_x_at:208596_s_at:97211- HuGene_st:1009861-HuGene_st:603368- HuGene_st:232654_s_at:625897-HuGene_st:998604- HuGene_st UGT1A3 116025-HuGene_st:6488-HuGene_st:881135- 1.32E−11 2.07 4.56 85   77-90.9 HuGene_st:230953_at:221304_at:221305_s_at:511516- HuGene_st:594963-HuGene_st:396121- HuGene_st:123777-HuGene_st:1016481- HuGene_st:204532_x_at:683377-HuGene_st:1055169- HuGene_st:1035103-HuGene_st:1088102- HuGene_st:207126_x_at:42874- HuGene_st:215125_s_at:206094_x_at:208596_s_at:97211- HuGene_st:1009861-HuGene_st:603368- HuGene_st:232654_s_at:625897-HuGene_st:998604- HuGene_st UGT1A9 116025-HuGene_st:6488-HuGene_st:881135- 1.32E−11 2.0667 4.56 84.9   77-90.8 HuGene_st:230953_at:221304_at:221305_s_at:511516- HuGene_st:594963-HuGene_st:396121- HuGene_st:123777-HuGene_st:1016481- HuGene_st:204532_x_at:683377-HuGene_st:1055169- HuGene_st:1035103-HuGene_st:1088102- HuGene_st:207126_x_at:42874- 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HuGene_st:430636-HuGene_st:87850- HuGene_st:1061724-HuGene_st:1040362- HuGene_st:336607-HuGene_st:799683- HuGene_st:504888-HuGene_st:212730_at:872910- HuGene_st:861909-HuGene_st:406723- HuGene_st:530704-HuGene_st:214304_x_at MPEG1 226818_at:918920-HuGene_st:283447- 4.58E−08 1.6464 1.86 79.5 70.8-86.4 HuGene_st:449729-HuGene_st:301732- HuGene_st:915566-HuGene_st:854136- HuGene_st:226841_at:477225-HuGene_st:1084905- HuGene_st:104883-HuGene_st:342839- HuGene_st:863106-HuGene_st:504453- HuGene_st:44663-HuGene_st:607415- HuGene_st:968224-HuGene_st:990725- HuGene_st:735251-HuGene_st IQGAP2 185028-HuGene_st:763806-HuGene_st:88647- 5.06E−08 1.6277 2.51 79.2 70.5-86.2 HuGene_st:93358-HuGene_st:393573- HuGene_st:743251-HuGene_st:1010599- HuGene_st:786301-HuGene_st:1066864- HuGene_st:231977-HuGene_st:370908- HuGene_st:937713-HuGene_st:201743- HuGene_st:243728_at:899180-HuGene_st:981926- HuGene_st:897914-HuGene_st:1095716- HuGene_st:802231-HuGene_st:263364- HuGene_st:986453-HuGene_st:203474_at 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HuGene_st:241148_at:575416-HuGene_st CMBL 157156-HuGene_st:305010- 1.09E−05 1.3583 1.58 75.1 66.1-82.8 HuGene_st:227522_at:553921-HuGene_st:529224- HuGene_st:1032780-HuGene_st:204886- HuGene_st:623086-HuGene_st:451862- HuGene_st:537678-HuGene_st:918595- HuGene_st:178105-HuGene_st:417861- HuGene_st:230995_at:986212-HuGene_st:405624- HuGene_st:424469-HuGene_st:836099- HuGene_st:665079-HuGene_st:234981_x_at KCTD12 509699-HuGene_st:77199- 1.44E−05 1.3636 1.36 75.2 66.2-82.8 HuGene_st:212188_at:229632-HuGene_st:502611- HuGene_st:931430-HuGene_st:908582- HuGene_st:769157-HuGene_st:312044- HuGene_st:212192_at:43415-HuGene_st:412026- HuGene_st:247270-HuGene_st:770750- HuGene_st:827060-HuGene_st:714432-HuGene_st MRGPRF 717973-HuGene_st:226058-HuGene_st:541082- 1.52E−05 1.2986 2.99 74.2 65.1-82   HuGene_st:60861-HuGene_st:1024643- HuGene_st:354954-HuGene_st:1099895- HuGene_st:672489-HuGene_st:489062- HuGene_st:435421-HuGene_st:227727_at:99658- HuGene_st C20orf118 235964_x_at:234987_at:235529_x_at:174500- 1.75E−05 1.4284 1.3 76.2 67.3-83.8 HuGene_st:168513-HuGene_st:312879- HuGene_st:57294-HuGene_st:748530- HuGene_st:24012-HuGene_st:219008- HuGene_st:471274-HuGene_st:1086281- HuGene_st:740018-HuGene_st:233829_at TMEM47 20487-HuGene_st:587019-HuGene_st:458329- 1.86E−05 1.301 2.02 74.2 65.1-82   HuGene_st:944333-HuGene_st:292459- HuGene_st:436914-HuGene_st:632184- HuGene_st:209655_s_at:885991-HuGene_st:33524- HuGene_st:528167-HuGene_st:555631- HuGene_st:595266-HuGene_st:503408- HuGene_st:296998-HuGene_st:672458- HuGene_st:64704-HuGene_st:285813- HuGene_st:865055-HuGene_st:734911-HuGene_st QKI 214543_x_at:212262_at:696914-HuGene_st:363144- 1.93E−05 1.3452 1.31 74.9 65.8-82.6 HuGene_st:820387-HuGene_st:646624- HuGene_st:979853-HuGene_st:658669- HuGene_st:748520-HuGene_st:656477- HuGene_st:296134- HuGene_st:1555154_a_at:212636_at:234492_at:462894- HuGene_st:1055543-HuGene_st VSIG2 985113-HuGene_st:555767-HuGene_st:391438- 2.01E−05 1.2959 2.05 74.1 65.1-81.9 HuGene_st:1093892-HuGene_st:675062- HuGene_st:788466-HuGene_st:826720- HuGene_st:997596-HuGene_st:1069591- HuGene_st:228232_s_at:223925-HuGene_st:637781- HuGene_st:265221-HuGene_st:652010- HuGene_st:265186-HuGene_st:343187- HuGene_st:1095607-HuGene_st HSPA1A 979726-HuGene_st:1069731-HuGene_st:50191- 2.16E−05 1.2699 2.41 73.7 64.6-81.5 HuGene_st:799087-HuGene_st:200799_at:539596- HuGene_st:150764-HuGene_st:200800_s_at:492579- HuGene_st AP1S2 230413_s_at:230264_s_at:99873-HuGene_st:57979- 3.39E−05 1.2572 1.92 73.5 64.3-81.3 HuGene_st:985324-HuGene_st:203300_x_at:84828- HuGene_st:910415-HuGene_st FKBP5 204560_at:224856_at:246403-HuGene_st:513199- 3.41E−05 1.2369 1.71 73.2 64-81 HuGene_st:69253-HuGene_st:642461- HuGene_st:467598-HuGene_st:1038165- HuGene_st:512075-HuGene_st:224840_at:797941- HuGene_st:633285-HuGene_st:511644- HuGene_st:469540-HuGene_st:209829- HuGene_st:800516-HuGene_st:247764- HuGene_st:468711-HuGene_st:112353- HuGene_st:746630-HuGene_st:337035- HuGene_st:1014328-HuGene_st:292916-HuGene_st KCNMB1 17348-HuGene_st:414025-HuGene_st:792493- 3.74E−05 1.2189 2.66 72.9 63.7-80.8 HuGene_st:131717-HuGene_st:569127- HuGene_st:17962-HuGene_st:504462- HuGene_st:758432-HuGene_st:209948_at:772102- HuGene_st:518039-HuGene_st VIM 564251-HuGene_st:201426_s_at:234475- 4.15E−05 1.2225 1.86 72.9 63.7-80.9 HuGene_st:319318-HuGene_st:339807- HuGene_st:527110-HuGene_st:994975- HuGene_st:837477-HuGene_st:302722- HuGene_st:516025-HuGene_st:1079757- HuGene_st:398387-HuGene_st:155888- HuGene_st:139661-HuGene_st:192324- HuGene_st:1093618-HuGene_st:364983- HuGene_st:436158-HuGene_st:410777- HuGene_st:1555938_x_at SORBS2 238751_at:805920-HuGene_st 4.23E−05 1.3007 2.1 74.2 65.1-82   C6orf204 486932-HuGene_st:573436-HuGene_st:400510- 4.90E−05 1.2042 2.07 72.6 63.5-80.6 HuGene_st:228202_at:123307-HuGene_st:181714- HuGene_st:206020-HuGene_st:949623- HuGene_st:814579-HuGene_st:515524- HuGene_st:514175-HuGene_st FAM55D 633727-HuGene_st:966568-HuGene_st:625133- 5.67E−05 1.1792 3.48 72.2 62.9-80.2 HuGene_st:858568-HuGene_st:220645_at:201856- HuGene_st:1013940-HuGene_st:316604- HuGene_st:450702-HuGene_st:1028406- HuGene_st:1090862-HuGene_st:741930- HuGene_st:981211-HuGene_st:970069- HuGene_st:259706-HuGene_st:291282- HuGene_st:56493-HuGene_st:888970- HuGene_st:821065-HuGene_st:53354- HuGene_st:752570-HuGene_st:539086- HuGene_st:204142-HuGene_st TIMP2 1087828-HuGene_st:231579_s_at:436546- 6.40E−05 1.2298 1.82 73.1 63.8-80.9 HuGene_st:799495-HuGene_st:563754- HuGene_st:914626-HuGene_st:526357- HuGene_st:203167_at:760416-HuGene_st:651774- HuGene_st:965142-HuGene_st:224540- HuGene_st:690107-HuGene_st:224560_at:319958- HuGene_st:437652-HuGene_st:43390- HuGene_st:727465-HuGene_st:310783- HuGene_st:750028-HuGene_st:957648- HuGene_st:106688-HuGene_st:289430- HuGene_st:740790-HuGene_st ELOVL5 NA 8.15E−05 1.1814 2.05 72.3   63-80.3 ACTA2 215787_at:743686-HuGene_st:200974_at:1070983- 1.00E−04 1.2318 1.81 73.1 63.9-80.9 HuGene_st:120087-HuGene_st:980364- HuGene_st:529704-HuGene_st:855050- HuGene_st:530590-HuGene_st:692252- HuGene_st:404109-HuGene_st:630797- HuGene_st:670805-HuGene_st:293590- HuGene_st:757648-HuGene_st:445454- HuGene_st:479447-HuGene_st:548186- HuGene_st:237159-HuGene_st:90357- HuGene_st:313690-HuGene_st:183075- HuGene_st:785232-HuGene_st C1S 208747_s_at:233042_at:620011- 0.0001 1.2896 1.61 74 64.8-81.9 HuGene_st:1555229_a_at:245571-HuGene_st:426716- HuGene_st:866948-HuGene_st:705447- HuGene_st:947234-HuGene_st:682561- HuGene_st:332123-HuGene_st LOC387763 1062323-HuGene_st 0.0001 1.1943 1.36 72.5 63.2-80.5 CLU 222043_at:939366-HuGene_st:832450- 0.0001 1.2285 1.42 73 63.8-81   HuGene_st:208792_s_at:125360-HuGene_st:216446- HuGene_st:208791_at:1054768-HuGene_st:1034873- HuGene_st:1056536-HuGene_st:787017- HuGene_st:1060096-HuGene_st:591687- HuGene_st:1014914-HuGene_st:213483- HuGene_st:459630-HuGene_st:1036064- HuGene_st:972503-HuGene_st:492827- HuGene_st:485686-HuGene_st MT1H 197989-HuGene_st:589780-HuGene_st:800631- 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HuGene_st:305131-HuGene_st:715557- HuGene_st:373579-HuGene_st:177871- HuGene_st:106318-HuGene_st:662795- HuGene_st:38090-HuGene_st CFL2 545956-HuGene_st:833414-HuGene_st:214239- 0.0009 1.0592 1.75 70.2 60.8-78.4 HuGene_st:192253-HuGene_st:224663_s_at:694174- HuGene_st:233496_s_at:992798-HuGene_st:328584- HuGene_st:950857-HuGene_st:612593- HuGene_st:95686-HuGene_st:177218- HuGene_st:451953-HuGene_st:800232- HuGene_st:575557-HuGene_st:794701-HuGene_st RBMS1 375424-HuGene_st:87825-HuGene_st:1046943- 0.0009 1.1417 1.55 71.6 62.3-79.7 HuGene_st:209868_s_at:207266_x_at:225269_s_at:238185_at SELENBP1 914892-HuGene_st:582091-HuGene_st:643114- 0.0009 1.0563 1.7 70.1 60.7-78.4 HuGene_st:532506-HuGene_st:823159- HuGene_st:171447-HuGene_st:189960- HuGene_st:75763-HuGene_st:834358- HuGene_st:245623- HuGene_st:214433_s_at:233267_at:564186- HuGene_st:637748-HuGene_st:200643- HuGene_st:781415-HuGene_st:208204- HuGene_st:730504-HuGene_st:1008117- HuGene_st:801694-HuGene_st:433986- HuGene_st:183676-HuGene_st:634656- HuGene_st:1087258-HuGene_st ENAM 212592_at 0.0011 1.0044 2.58 69.2 59.9-77.5 MT1F 987574-HuGene_st:213629_x_at:171840- 0.0012 0.9654 2.2 68.5 59.1-76.9 HuGene_st:217165_x_at:867979-HuGene_st:354284- HuGene_st:424055-HuGene_st:998184- HuGene_st:616693-HuGene_st:459005- HuGene_st:221141-HuGene_st:338518- HuGene_st:951452-HuGene_st:915306- HuGene_st:506126-HuGene_st:845635- HuGene_st:1048483-HuGene_st:1094672- HuGene_st:576368-HuGene_st:414800-HuGene_st CD163 620892-HuGene_st:215049_x_at:32161- 0.0013 1.0234 1.9 69.6 60.2-77.9 HuGene_st:867013-HuGene_st:899841- HuGene_st:662901-HuGene_st:97726- HuGene_st:180883-HuGene_st:706228- HuGene_st:849505-HuGene_st:217692- HuGene_st:566183-HuGene_st:154492- HuGene_st:737668-HuGene_st:203645_s_at:948100- HuGene_st:900552-HuGene_st:288236:HuGene_st GUCY1A3 560981-HuGene_st:1088572-HuGene_st:692186- 0.0015 1.0136 2.69 69.4   60-77.7 HuGene_st:648114-HuGene_st:783434- HuGene_st:221942_s_at:1026405-HuGene_st:256104- HuGene_st:965063-HuGene_st:889044- HuGene_st:752296-HuGene_st:239580_at:185668- HuGene_st:120195-HuGene_st:324658- HuGene_st:229530_at TNFRSF17 1062688-HuGene_st:38682-HuGene_st:558270- 0.0015 1.0199 2.08 69.5 60.1-77.7 HuGene_st:631025-HuGene_st:24518- HuGene_st:240754-HuGene_st:193693- HuGene_st:255074-HuGene_st:493368- HuGene_st:191710-HuGene_st:610232- HuGene_st:544680-HuGene_st:205576- HuGene_st:738267-HuGene_st:746498-HuGene_st CAV1 793412-HuGene_st:1007317- 0.0016 1.0215 1.58 69.5 60.1-77.8 HuGene_st:212097_at:203065_s_at:812832- HuGene_st:505037-HuGene_st:819580- HuGene_st:348883-HuGene_st:659416- HuGene_st:698493-HuGene_st:861877- HuGene_st:518081-HuGene_st:35773-HuGene_st CKB 718720-HuGene_st:769422-HuGene_st:581051- 0.0019 0.9741 2.27 68.7 59.2-77   HuGene_st:549987-HuGene_st:24890- HuGene_st:1041238-HuGene_st:16603- HuGene_st:480007-HuGene_st:435665- HuGene_st:25470-HuGene_st:40899- HuGene_st:896708-HuGene_st:373774- HuGene_st:963331-HuGene_st:23457- HuGene_st:766369-HuGene_st:200884_at:405417- HuGene_st:888623-HuGene_st:396007-HuGene_st WWTR1 202132_at:249804-HuGene_st:735408- 0.002 0.9904 1.48 69 59.6-77.3 HuGene_st:925151-HuGene_st:213564- HuGene_st:561456-HuGene_st:125734- HuGene_st:367743-HuGene_st:153369- HuGene_st:628871-HuGene_st:942493- HuGene_st:949013-HuGene_st:202134_s_at:426662- HuGene_st:586249-HuGene_st:228629_s_at:506281- HuGene_st HMGCS2 729816-HuGene_st:658722-HuGene_st:253113- 0.0022 0.8767 2.67 66.9 57.5-75.5 HuGene_st:900260-HuGene_st:253100- HuGene_st:283650-HuGene_st:624250- HuGene_st:439478-HuGene_st:407398- HuGene_st:171889-HuGene_st:397691- HuGene_st:448587-HuGene_st:593619- HuGene_st:371076-HuGene_st:228587- HuGene_st:888308-HuGene_st:538023- HuGene_st:204607_at:43162-HuGene_st:865416- HuGene_st:619083-HuGene_st:789982- HuGene_st:616916-HuGene_st MAFB 876871-HuGene_st:600037-HuGene_st:177002- 0.0034 0.9563 1.66 68.4   59-76.8 HuGene_st:3125-HuGene_st:1057503- HuGene_st:274807-HuGene_st STOM 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HuGene_st:511913-HuGene_st:1099818- HuGene_st:33219-HuGene_st:663513-HuGene_st SI 9605-HuGene_st:514814-HuGene_st:809314- 0.0054 0.9299 2.79 67.9 58.5-76.4 HuGene_st:576613-HuGene_st:45502- HuGene_st:369676-HuGene_st:438636- HuGene_st:267204-HuGene_st:326716- HuGene_st:897825-HuGene_st:377666- HuGene_st:519273-HuGene_st:325741- HuGene_st:245381-HuGene_st:108368- HuGene_st:464198-HuGene_st:679193- HuGene_st:168180-HuGene_st LOC285382 242447_at 0.0058 0.7422 1.26 64.5   55-73.2 HLA- 971813-HuGene_st 0.0063 1.0668 1.51 70.3 60.9-78.6 DRB1 ANTXR1 241549_at:232956_at 0.0071 0.9507 1.29 68.3 58.8-76.7 FAM46C 197110-HuGene_st:220306_at:110466- 0.0085 0.9172 1.38 67.7 58.2-76.1 HuGene_st:988119-HuGene_st:1098424- HuGene_st:560529-HuGene_st:387944- HuGene_st:38645-HuGene_st:221689- HuGene_st:322082-HuGene_st TIMP3 767021-HuGene_st:201150_s_at:201148_s_at:228752- 0.0091 0.9064 1.81 67.5 58-76 HuGene_st:241221-HuGene_st:201147_s_at:125730- HuGene_st LOC283666 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56.9-75   HuGene_st:57954-HuGene_st:737256- HuGene_st:858575- HuGene_st:212937_s_at:214200_s_at:190064- HuGene_st:216904_at SELM NA 0.0133 0.8596 1.32 66.6 57.2-75.2 FLNA 296693-HuGene_st:685285-HuGene_st:704065- 0.0157 0.7967 1.59 65.5 55.9-74.1 HuGene_st:445061-HuGene_st:11735- HuGene_st:1066792- HuGene_st:214752_x_at:213746_s_at:871038- HuGene_st:396236-HuGene_st:200859_x_at:786282- HuGene_st:136680-HuGene_st:50466- HuGene_st:955232-HuGene_st:588605- HuGene_st:40025-HuGene_st:1002306- HuGene_st:833338-HuGene_st:86435- HuGene_st:172457-HuGene_st COX7A1 386303-HuGene_st:354428-HuGene_st 0.0161 0.8613 1.32 66.7 57.2-75.3 EMP3 736604-HuGene_st:155271-HuGene_st:584704- 0.0164 0.8053 1.41 65.6 56.1-74.2 HuGene_st ITLN1 389198-HuGene_st:496499-HuGene_st:48547- 0.021 0.7137 2.54 63.9 54.4-72.7 HuGene_st:552029-HuGene_st:126777- HuGene_st:223597_at:281671-HuGene_st:45052- HuGene_st:573120:HuGene_st:137624- HuGene_st:948945-HuGene_st:527196- HuGene_st:358648-HuGene_st:45640- HuGene_st:512550-HuGene_st:839317- HuGene_st:634036-HuGene_st:101083- HuGene_st:857541-HuGene_st:404069-HuGene_st C10orf99 227735_s_at:563767-HuGene_st:963471- 0.0218 0.724 1.76 64.1 54.7-72.9 HuGene_st:965947-HuGene_st:1081062- HuGene_st:354432-HuGene_st:602661- HuGene_st:227736_at:1009594-HuGene_st:969063- HuGene_st:77052-HuGene_st:483367- HuGene_st:50662-HuGene_st:738457- HuGene_st:69019-HuGene_st:215415- HuGene_st:1003926-HuGene_st:676577- HuGene_st:676855-HuGene_st:225297- HuGene_st:560897-HuGene_st:886384- HuGene_st:303754-HuGene_st CSRP1 453033-HuGene_st:673637-HuGene_st:607761- 0.023 0.7234 1.39 64.1 54.6-72.9 HuGene_st:582630-HuGene_st:654799- HuGene_st:258474-HuGene_st:200621_at:1028504- HuGene_st:802909-HuGene_st:339914- HuGene_st:533385-HuGene_st:256461- HuGene_st:1043113-HuGene_st:72101- HuGene_st:105671-HuGene_st:339691- HuGene_st:108781-HuGene_st:133369- HuGene_st:614016-HuGene_st:629648- HuGene_st:81550-HuGene_st PTGER4 450915-HuGene_st:1067155-HuGene_st:812085- 0.0237 0.8101 1.41 65.7 56.2-74.4 HuGene_st:1943-HuGene_st:109314- HuGene_st:204897_at:252442-HuGene_st:800125- HuGene_st:965220:HuGene_st:446764- HuGene_st:204896_s_at:23686-HuGene_st:548266- HuGene_st:392964:HuGene_st:986807- HuGene_st:619166-HuGene_st TPM2 828216-HuGene_st:373854-HuGene_st:981165- 0.026 0.7539 1.53 64.7 55.2-73.4 HuGene_st:191586-HuGene_st:445912- HuGene_st:446500-HuGene_st:922931- HuGene_st:336603-HuGene_st:272114- HuGene_st:375166-HuGene_st:8388- HuGene_st:204083_s_at:544548-HuGene_st:945443- HuGene_st:628440-HuGene_st:763118- HuGene_st:538951-HuGene_st PIGR 748831-HuGene_st:226147_s_at:166398- 0.0278 0.7282 1.59 64.2 54.7-73   HuGene_st:593192-HuGene_st:204213_at:557727- HuGene_st:229659_s_at:242106-HuGene_st:146237- HuGene_st:883137-HuGene_st:691362- HuGene_st:201991-HuGene_st:1045753- HuGene_st:589879-HuGene_st:1017162- HuGene_st:325979-HuGene_st:105903- HuGene_st:1063932-HuGene_st:207526- HuGene_st:566905-HuGene_st HLA-C 754900-HuGene_st 0.0279 0.9253 1.24 67.8 58.3-76.2 PRNP 178399-HuGene_st:201300_s_at:386578- 0.0288 0.798 1.24 65.5   56-74.2 HuGene_st:783439-HuGene_st CCL11 495934-HuGene_st 0.0361 0.8547 1.32 66.5 57.1-75   C1QC 137801-HuGene_st:851445-HuGene_st 0.0391 0.7457 1.36 64.5 54.9-73.3 CYR61 736150-HuGene_st:385534-HuGene_st:48239- 0.0425 0.7875 1.47 65.3 55.7-73.9 HuGene_st:242630-HuGene_st SERPING1 NA 0.0503 0.7659 1.44 64.9 55.4-73.6 TYROBP NA 0.053 0.8176 1.17 65.9 56.3-74.5 GJA1 NA 0.0561 0.7839 1.76 65.2 55.6-73.9 PTRF NA 0.0624 0.7354 1.5 64.3 54.8-73.1 CLCA1 NA 0.0681 0.7855 1.61 65.3 55.8-74   SPARC NA 0.0684 0.6702 1.45 63.1 53.5-71.9 COL4A2 NA 0.0738 0.7081 1.32 63.8 54.3-72.5 RAB31 NA 0.1041 0.8159 1.14 65.8 56.3-74.4 NID1 NA 0.105 0.7428 1.33 64.5 54.9-73.2 FN1 NA 0.1121 0.5769 1.73 61.3 51.7-70.2 MSN NA 0.1499 0.7215 1.15 64.1 54.6-72.9 MMP2 NA 0.1755 0.6219 1.24 62.2 52.5-71.2 COL1A2 NA 0.1891 0.65 1.9 62.7 53.2-71.6 FOSB NA 0.2076 0.6389 2.17 62.5 52.9-71.4 HBB NA 0.2357 0.6434 1.28 62.6   53-71.5 POU2AF1 NA 0.2389 0.6564 1.18 62.9 53.3-71.7 COL3A1 NA 0.2551 0.5538 1.35 60.9 51.3-69.9 SMOC2 NA 0.2701 0.6533 1.34 62.8 53.2-71.7 MUC2 NA 0.2802 0.8523 1.22 66.5 57-75 Sep-06 NA 0.3109 0.5713 1.21 61.2 51.7-70.2 LUM NA 0.3157 0.5442 1.54 60.7 51.1-69.7 C1QB NA 0.3668 0.5005 1.24 59.9 50.4-69   TGFB1I1 NA 0.4093 0.4951 1.35 59.8 50.1-68.8 ALDH1A1 NA 0.4232 0.354 1.4 57 47.4-66.2 LRIG1 NA 0.4614 0.5998 1.26 61.8 52.2-70.7 C8orf4 NA 0.475 0.483 1.44 59.5 49.9-68.5 EGR1 NA 0.4851 0.5374 1.38 60.6   51-69.6 LOC652745 NA 0.4864 0.1722 1.09 53.4 43.8-62.8 IGKV1D- NA 0.5177 0.1597 1.1 53.2 43.7-62.5 13 COL15A1 NA 0.6601 0.54 1.22 60.6   51-69.6 IGFBP5 NA 0.7663 0.3504 1.25 57 47.4-66.3 LGALS1 NA 0.8555 0.4626 1.16 59.1 49.5-68.3 COL6A3 NA 0.8739 0.4412 1.2 58.7 49.1-67.9 HLA- NA 0.9084 0.5417 1.28 60.7 51.1-69.6 DQA1 HLA-DRA NA 0.9084 0.5391 1.28 60.6   51-69.6 ST6GALNAC1 NA 0.9452 0.2594 1.15 55.2 45.6-64.5 HLA-DPA1 NA 0.9664 0.4166 1.39 58.3 48.7-67.4 IGLV1-44 NA 0.9777 0.2865 1.07 55.7 46.1-64.9 TNC NA 0.9905 0.3682 1.09 57.3 47.7-66.5 HBA1 NA 0.9979 0.47 1.21 59.3 49.6-68.4 HBA2 NA 0.9979 0.4705 1.21 59.3 49.6-68.3

TABLE 3 Signif. Sens- TargetPS Symbol FDR D.val5 FC Spec CI (95) 230788_at SPTLC3: GCNT2 2.1587E−27 3.9562 13.36 97.6 94.2-99.2 228706_s_at CLDN23 4.2694E−20 3.0727 3.47 93.8 88.3-97.1 231120_x_at PKIB 5.9397E−20 3.1191 3.28 94.1 88.6-97.3 224412_s_at TRPM6 2.2514E−19 3.0115 7.5 93.4 87.7-96.8 220037_s_at XLKD1 3.5991E−19 2.9405 7.44 92.9   87-96.5 209613_s_at ADH1B: ADH1A 4.6957E−19 3.0158 4.67 93.4 87.7-96.9 204719_at ABCA8 1.2559E−18 2.9171 6.82 92.8 86.8-96.5 231773_at ANGPTL1 1.4172E−17 2.7946 4.64 91.9 85.6-95.9 225575_at LIFR 2.4532E−17 2.7797 6.36 91.8 85.5-95.8 220812_s_at HHLA2 3.4739E−17 2.6718 10.02 90.9 84.4-95.2 211549_s_at HPGD 3.6502E−17 2.8451 3.21 92.3 86.1-96.1 202920_at ANK2 2.5934E−16 2.6488 6.76 90.7 84.2-95.1 231925_at P2RY1 1.4091E−15 2.5329 3.6 89.7 82.8-94.4 207080_s_at PYY 3.5022E−15 2.4783 11.71 89.2 82.2-94 228885_at RPL24: LOC731365 1.2312E−14 2.5575 1.63 90 83.1-94.6 228766_at CD36 6.2677E−14 2.4687 1.65 89.1 82.1-94 204931_at TCF21 2.5147E−13 2.3036 2.34 87.5 80.1-92.8 205433_at BCHE 3.1756E−13 2.2538 6.21 87 79.5-92.5 207980_s_at CITED2 5.2905E−13 2.2709 1.64 87.2 79.7-92.6 209170_s_at GPM6B 4.0429E−12 2.1588 3.59 86 78.1-91.6 220376_at LRRC19 6.7548E−12 2.0763 4.51 85 77.1-90.9 228504_at No Symbol 9.1926E−12 2.152 1.61 85.9 78.2-91.6 228854_at No Symbol 9.1926E−12 2.1538 1.61 85.9 78.2-91.6 235146_at No Symbol 9.1926E−12 2.1537 1.61 85.9 78.2-91.6 221305_s_at UGT1A10: UGT1A7: UGT1A8: 1.0319E−11 2.0677 4.56 84.9 77.1-90.9 UGT1A1: UGT1A9: UGT1A6: UGT1A5: UGT1A3: UGT1A4 203881_s_at DMD 5.0063E−11 2.0137 4.74 84.3 76.3-90.4 206637_at P2RY14 1.3104E−10 1.9836 2 83.9 75.8-90.1 214598_at CLDN8 2.9225E−10 1.8624 12.96 82.4 74.1-88.9 227529_s_at AKAP12 7.4077E−09 1.7434 2.83 80.8 72.3-87.5 219948_x_at LOC642329: UGT2A3  8.638E−09 1.741 4.89 80.8 72.3-87.6 222717_at SDPR 9.6207E−08 1.5993 2.21 78.8 70.1-85.9 229831_at CNTN3 1.1953E−07 1.6145 3.93 79 70.3-86.1 204940_at PLN 4.1416E−07 1.5439 2.01 78 69.2-85.2 227827_at SORBS2 4.2323E−05 1.3016 2.1 74.2 65.1-81.9 238751_at SORBS2 4.2323E−05 1.3015 2.1 74.2 65.1-82 209209_s_at PLEKHC1 0.0007 1.0304 1.82 69.7 60.3-78 206664_at SI 0.0054 0.9301 2.79 67.9 58.4-76.3

TABLE 4 Gene Signif. D.val Sens- CI Symbol ValidPS_DOWN FDR 5 FC Spec (95) ANK2 314086-HuGene_st: 282874-HuGene_st: 382431- 2.59E−16 2.6515 6.76 90.8 84.1-95.1 HuGene_st: 229308-HuGene_st: 779600-HuGene_st: 297624- HuGene_st: 385943-HuGene_st: 730140-HuGene_st: 442277- HuGene_st: 699309-HuGene_st: 182816- HuGene_st: 202921_s_at: 799860-HuGene_st: 868462- HuGene_st: 634421-HuGene_st: 571536-HuGene_st: 1050903- HuGene_st: 649509-HuGene_st: 239935-HuGene_st: 202920_at DMD 945600-HuGene_st: 12596-HuGene_st: 434657- 5.01E−11 2.0162 4.74 84.3 76.3-90.4 HuGene_st: 676962-HuGene_st: 1020969-HuGene_st: 170680- HuGene_st: 855670-HuGene_st: 909848-HuGene_st: 134644- HuGene_st: 887814-HuGene_st: 649184-HuGene_st: 110990- HuGene_st: 914217-HuGene_st: 961622-HuGene_st: 514011- HuGene_st: 842792-HuGene_st: 445483- HuGene_st: 208086_s_at: 987362-HuGene_st: 997308- HuGene_st ABCA8 57305-HuGene_st: 111752-HuGene_st: 61357- 1.26E−18 2.9182 6.82 92.8 86.8-96.5 HuGene_st: 123451-HuGene_st: 740746-HuGene_st: 512280- HuGene_st: 389185-HuGene_st: 427721-HuGene_st: 346028- HuGene_st: 224566-HuGene_st: 149653-HuGene_st: 680699- HuGene_st: 76772-HuGene_st: 742091-HuGene_st: 423333- HuGene_st: 559944-HuGene_st: 341399- HuGene_st: 1565780_at: 863400-HuGene_st: 921748- HuGene_st: 623719-HuGene_st: 204719_at: 123143- HuGene_st: 1077391-HuGene_st TCF21 804657-HuGene_st: 106365-HuGene_st: 710514- 2.51E−13 2.3037 2.34 87.5 80.1-92.9 HuGene_st: 299556-HuGene_st: 608149-HuGene_st: 242233- HuGene_st: 655881-HuGene_st: 356773-HuGene_st: 788445- HuGene_st: 709897-HuGene_st: 605488-HuGene_st: 652466- HuGene_st: 204931_at: 830709-HuGene_st: 273418- HuGene_st: 1004754-HuGene_st: 990861-HuGene_st: 238739- HuGene_st: 836241-HuGene_st: 110045- HuGene_st: 229529_at: 1001969-HuGene_st PLN 204938_s_at: 418214-HuGene_st: 769837-HuGene_st: 603329- 4.14E−07 1.5399 2.01 77.9 69.2-85.2 HuGene_st: 1048096-HuGene_st: 944510-HuGene_st: 430402- HuGene_st: 86633-HuGene_st: 795093-HuGene_st: 377757- HuGene_st: 770145-HuGene_st: 920628-HuGene_st: 594048- HuGene_st: 800583-HuGene_st: 204939_s_at: 556723- HuGene_st: 818339-HuGene_st: 175524-HuGene_st: 498924- HuGene_st: 204940_at BCHE 228090-HuGene_st: 752051-HuGene_st: 800167- 3.18E−13 2.2544 6.21 87 79.4-92.5 HuGene_st: 221362-HuGene_st: 155900-HuGene_st: 717363- HuGene_st: 536584-HuGene_st: 146780-HuGene_st: 302487- HuGene_st: 508472-HuGene_st: 516293-HuGene_st: 968992- HuGene_st: 666625-HuGene_st: 923158-HuGene_st P2RY14 528057-HuGene_st: 780310-HuGene_st: 235178- 1.31E−10 1.9805 2 83.9 75.9-90 HuGene_st: 352954-HuGene_st: 699489-HuGene_st: 38001- HuGene_st: 637791-HuGene_st: 25606-HuGene_st: 40647- HuGene_st: 896487-HuGene_st: 672149-HuGene_st: 863820- HuGene_st: 352427-HuGene_st: 632821-HuGene_st: 116148- HuGene_st: 561792-HuGene_st: 840910-HuGene_st: 296420- HuGene_st: 974643-HuGene_st: 206637_at PYY 656845-HuGene_st: 816022-HuGene_st: 633572- 3.50E−15 2.4828 11.71 89.3 82.2-94 HuGene_st: 20355-HuGene_st: 240779-HuGene_st: 638358- HuGene_st: 879780- HuGene_st: 207080_s_at: 211253_x_at: 368591-HuGene_st CITED2 125201-HuGene_st: 410723-HuGene_st: 463405- 5.29E−13 2.269 1.64 87.2 79.7-92.6 HuGene_st: 401168-HuGene_st: 1012057-HuGene_st: 235057- HuGene_st: 361772-HuGene_st: 207980_s_at: 1091907- HuGene_st: 985355-HuGene_st: 175990- HuGene_st: 227287_at: 48433-HuGene_st: 209357_at: 477746- HuGene_st: 243264-HuGene_st: 904401-HuGene_st: 328536- HuGene_st: 1095110-HuGene_st: 89784-HuGene_st: 206734- HuGene_st: 927615-HuGene_st GPM6B 599862-HuGene_st: 754598-HuGene_st: 503642- 4.04E−12 2.1547 3.59 85.9 78.2-91.7 HuGene_st: 224935-HuGene_st: 754449-HuGene_st: 577489- HuGene_st: 1073242-HuGene_st: 560873-HuGene_st: 1003662- HuGene_st: 430217-HuGene_st: 903323-HuGene_st: 231962- HuGene_st: 244945-HuGene_st: 562460-HuGene_st: 583561- HuGene_st: 209168_at PLEKHC1 831786-HuGene_st: 88016-HuGene_st: 1087035- 7.00E−04 1.0307 1.82 69.7 60.4-78 HuGene_st: 530331-HuGene_st: 209209_s_at 184398- HuGene_st: 904923-HuGene_st: 193550-HuGene_st: 468805- HuGene_st: 104495-HuGene_st: 604317-HuGene_st: 501652- HuGene_st: 118096-HuGene_st: 321532-HuGene_st: 675257- HuGene_st: 79496-HuGene_st: 590867-HuGene_st: 147248- HuGene_st: 627402-HuGene_st: 377514-HuGene_st ADH1B 1078343-HuGene_st: 512808: HuGene_st: 614446- 4.70E−19 3.0174 4.67 93.4 87.7-96.9 HuGene_st: 910188-HuGene_st: 422504-HuGene_st: 731361- HuGene_st: 209612_s_at: 258079-HuGene_st: 568239- HuGene_st: 879930-HuGene_st: 420417-Hu-Gene_st: 1025048- HuGene_st: 908335-HuGene_st: 654633-HuGene_st: 947292- HuGene_st: 1087125-HuGene_st: 1004870- HuGene_st: 209613_s_at: 579636-HuGene_st: 681018- HuGene_st: 822774-HuGene_st XLKD1 520080-HuGene_st: 1091117-HuGene_st: 943125- 3.60E−19 2.9461 7.44 93 87.1-96.6 HuGene_st: 444068-HuGene_st: 64855-8-HuGene_st: 346991- HuGene_st: 1006205-HuGene_st: 373107-HuGene_st: 682535- HuGene_st: 1083245-HuGene_st: 863143-HuGene_st: 820120- HuGene_st: 1044561-HuGene_st: 220037_s_at: 541228- HuGene_st: 220256-HuGene_st: 289122- HuGene_st: 219059_s_at: 246683-HuGene_st: 775976- HuGene_st: 207399-HuGene_st: 1052557-HuGene_st: 92121- HuGene_st LRRC19 177641-HuGene_st: 1070020-HuGene_st: 1055140- 6.75E−12 2.0779 4.51 85.1 77.1-91 HuGene_st: 525999-HuGene_st: 937256-HuGene_st: 620791- HuGene_st: 891251-HuGene_st: 707559-HuGene_st: 892056- HuGene_st: 764919-HuGene_st: 382143-HuGene_st: 52584- HuGene_st: 920414-HuGene_st: 1028155-HuGene_st: 755055- HuGene_st: 678651-HuGene_st: 1080156-HuGene_st: 530282- HuGene_st: 523877-HuGene_st: 335198-HuGene_st: 787709- HuGene_st: 153175-HuGene_st: 220376_at SDPR 878908-HuGene_st: 781527-HuGene_st: 331976- 9.62E−08 1.6036 2.21 78.9   70-85.9 HuGene_st: 238150-HuGene_st: 306039-HuGene_st: 535903- HuGene_st: 302361-HuGene_st: 1005813-HuGene_st: 71118- HuGene_st: 992629-HuGene_st: 218711_s_at: 293110- HuGene_st: 779040-HuGene_st: 222717_at: 970479- HuGene_st: 581654-HuGene_st TRPM6 767074-HuGene_st: 695352-HuGene_st: 411125- 2.25E−19 3.0111 7.5 93.4 87.7-96.8 HuGene_st: 221102_s_at: 234864_s_at: 240389_at: 358229- HuGene_st: 755964-HuGene_st: 840301-HuGene_st: 959234- HuGene_st: 782639-HuGene_st: 833079-HuGene_st: 1066034- HuGene_st: 678013-HuGene_st: 249083-HuGene_st: 143934- HuGene_st: 159130-HuGene_st: 486486-HuGene_st: 185057- HuGene_st: 878793-HuGene_st: 133981- HuGene_st: 224412_s_at: 202194-HuGene_st LIFR 275506-HuGene_st: 323055-HuGene_st: 444251- 2.45E−17 2.7814 6.36 91.8 85.5-95.8 HuGene_st: 1056178-HuGene_st: 398104-HuGene_st: 917434- HuGene_st: 1044918-HuGene_st: 167500-HuGene_st: 423760- HuGene_st: 837336-HuGene_st: 321505-HuGene_st: 918321- HuGene_st: 252278-HuGene_st: 884504-HuGene_st: 124845- HuGene_st: 499777-HuGene_st: 969722-HuGene_st: 709439- HuGene_st: 611505-HuGene_st: 227771_at: 287217- HuGene_st: 205876_at: 225571_at: 229185_at: 233367_at 1093011-HuGene_st AKAP12 212419-HuGene_st: 231067_s_at: 379659- 7.41E−09 1.7456 2.83 80.9 72.4-87.6 HuGene_st: 1010338-HuGene_st: 1075094-HuGene_st: 42401- HuGene_st: 522584-HuGene_st: 480972-HuGene_st: 948623- HuGene_st: 701945-HuGene_st: 276784-HuGene_st: 64858- HuGene_st: 210517_s_at: 874382-HuGene_st: 909976- HuGene_st: 182037-HuGene_st: 417182-HuGene_st: 722881- HuGene_st CLDN23 403960-HuGene_st: 25144-HuGene_st: 947653- 4.27E−20 3.0748 3.47 93.8 88.2-97.1 HuGene_st: 228704_s_at: 228706_s_at: 320375- HuGene_st: 441629-HuGene_st: 367414-HuGene_st: 855269- HuGene_st: 228707_at: 788659-HuGene_st: 698816- HuGene_st: 95789-HuGene_st: 270197-HuGene_st: 472976- HuGene_st: 280539-HuGene_st: 1056334-HuGene_st: 516288- HuGene_st: 579963-HuGene_st CD36 392196-HuGene_st: 274514-HuGene_st: 477005- 6.27E−14 2.4696 1.65 89.2 82.1-94 HuGene_st: 6915-85-HuGene_st: 872909-HuGene_st: 543050- HuGene_st: 603343-HuGene_st: 514557-HuGene_st: 296850- HuGene_st: 945913-HuGene_st: 495755- HuGene_st: 205488s_at: 1035854-HuGene_st: 887301- HuGene_st: 836370-HuGene_st: 209555_s_at: 939919- HuGene_st: 507440-HuGene_s 151788-HuGene_st: 146280- HuGene_st: 360545-HuGene_st: 1051486- HuGene_st: 228766_at: 512885-HuGene_st RPL24 1559655_at: 1559656_a_at: 228885_at 1.23E−14 2.5568 1.63 89.9 83.1-94.6 GCNT2 935239-HuGene_st: 225205-HuGene_st: 1026280- 2.16E−27 3.9536 13.36 97.6 94.1-99.2 HuGene_st: 668101-HuGene_st: 1099985-HuGene_st: 698568- HuGene_st: 134540-HuGene_st: 697147-HuGene_st: 250092- HuGene_st: 611927-HuGene_st: 972833-HuGene_st: 168891- HuGene_st: 990860-HuGene_st: 109287-HuGene_st: 322116- HuGene_st: 231019-HuGene_st: 211020_at: 959570- HuGene_st: 858764-HuGene_st: 215593_at 820195- HuGene_st: 239606_at: 41059-HuGene_st: 669940- HuGene_st: 215595_x_at: 230788_at PKIB 866170-HuGene_st: 1055812-HuGene_st: 264946- 5.94E−20 3.1204 3.28 94.1 88.6-97.3 HuGene_st: 684057-HuGene_st: 124791-HuGene_st: 134561- HuGene_st: 1026756-HuGene_st: 468593-HuGene_st: 1045852- HuGene_st: 939917-HuGene_st: 110205-HuGene_st: 660721- HuGene_st: 905229-HuGene_st: 223551_at: 610426-HuGene_st ANGPTL1 572942-HuGene_st: 891312-HuGene_st: 953040- 1.42E−17 2.7964 4.64 91.9 85.6-95.9 HuGene_st: 232844-HuGene_st: 145730-HuGene_st: 142205- HuGene_st: 227771-HuGene_st: 80584-HuGene_st: 982090- HuGene_st: 999640-HuGene_st: 672931-HuGene_st: 148578- HuGene_st: 224339_s_at: 1046706- HuGene_st: 239183_at: 155600-HuGene_st: 284674- HuGene_st: 231773_at: 818064-HuGene_st: 978991- HuGene_st: 728775-HuGene_st SI 9605-HuGene_st: 514814-HuGene_st: 809314- 5.40E−03 0.9299 2.79 67.9 58.4-76.4 HuGene_st: 576613-HuGene_st: 45-502-HuGene_st: 369676- HuGene_st: 438636-HuGene_st: 267204-HuGene_st: 326716- HuGene_st: 897825-HuGene_st: 377666-HuGene_st: 519273- HuGene_st: 325741-HuGene_st: 245381-HuGene_st: 108368- HuGene_st: 464198-HuGene_st: 679193-HuGene_st: 168180- HuGene_st HPGD 291863-HuGene_st: 375608-HuGene_st: 793406- 3.65E−17 2.8462 3.21 92.3 86.2-96.1 HuGene_st: 436293-HuGene_st: 75568- HuGene_st: 211549_s_at: 684728-HuGene_st: 674596- HuGene_st: 527856-HuGene_st: 329920-HuGene_st: 748432- HuGene_st: 259392-HuGene_st: 769902-HuGene_st: 620673- HuGene_st: 450707-HuGene_st: 203913_s_at: 304752- HuGene_st: 447604-HuGene_st: 170968-HuGene_st: 852359- HuGene_st: 836377-HuGene_st: 242733_at: 243846- HuGene_st: 136281- HuGene_st: 203914_x_at: 211548_s_at: 288252-HuGene_st CLDN8 1018006-HuGene_st: 190634-Hu -dene_st: 590280- 2.92E−10 1.8639 12.96 82.4 74.1-88.9 HuGene_st: 186468-HuGene_st: 954438-HuGene_st: 428391- HuGene_st: 480543-HuGene_st: 944337-HuGene_st: 179725- HuGene_st: 508584-HuGene_st: 1009114-HuGene_st: 948216- HuGene_st: 658285-HuGene_st: 1022600-HuGene_st: 737498- HuGene_st: 470015-HuGene_st: 103315-HuGene_st: 699348- HuGene_st: 89877-HuGene_st: 56937-HuGene_st: 862663- HuGene_st: 504945-HuGene_st: 214598_at UGT2A3 149647-HuGene_st: 860083-HuGene_st: 922544- 8.64E−09 1.7422 4.89 80.8 72.3-87.5 HuGene_st: 244206-HuGene_st: 503323-HuGene_st: 353576- HuGene_st: 603619-HuGene_st: 787458-HuGene_st: 219796- HuGene_st: 333564-HuGene_st: 257402-HuGene_st: 366699- HuGene_st: 461685-HuGene_st: 891681-HuGene_st: 644952- HuGene_st: 621618-HuGene_st: 737617-HuGene_st: 88682- HuGene_st: 529761-HuGene_st: 895203-HuGene_st: 658594- HuGene_st: 455115-HuGene_st HHLA2 371335-HuGene_st: 978721-HuGene_st: 1065567- 3.47E−17 2.6743 10.02 90.9 84.3-95.2 HuGene_st: 2825-48-HuGene_st: 240410-HuGene_st: 170899- HuGene_st: 947848-HuGene_st: 438234- HuGene_st: 220812_s_at: 927495-HuGene_st: 351364- HuGene_st: 234673_at: 993142-HuGene_st: 1009637- HuGene_st: 335000-HuGene_st: 285313: HuGene_st: 533646- HuGene_st: 234624_at: 458597-HuGene_st: 104838- HuGene_st: 26687-HuGene_st: 258409-HuGene_st: 493304- HuGene_st: 378019-HuGene_st: 576796-HuGene_st UGT1A8 116025-HuGene_st: 6488-Hu-Gene_st: 881135- 1.32E−11 2.0703 4.56 85 77.1-90.9 HuGene_st: 230953_at: 221304_at: 221305_s_at: 511516- HuGene_st: 5949637-HuGene_st: 396121-HuGene_st: 123777- HuGene_st: 1016481-HuGene_st: 204532_x_at: 683377- HuGene_st: 1055169-HuGene_st: 1035103- HuGene_st: 1088102-HuGene_st: 207126_x_at: 42874- HuGene_st: 215125_s_at: 206094_x_at: 208596_s_at: 97211- HuGene_st: 1009861-HuGene_st: 603368- HuGene_st: 232654_s_at: 6258-97-HuGene_st: 998604- HuGene_st CNTN3 267567-HuGene_st: 782053-HuGene_st: 550157- 1.20E−07 1.6155 3.93 79 70.3-86.1 HuGene_st: 541394-HuGene_st: 989173-HuGene_st: 15899- HuGene_st: 78622-HuGene_st: 339738-HuGene_st: 585282- HuGene_st: 661814-HuGene_st: 360715-HuGene_st: 695033- HuGene_st: 483058-HuGene_st: 555394-HuGene_st: 315011- HuGene_st: 905374-HuGene_st: 1067212-HuGene_st: 557263- HuGene_st: 233502_at: 811729-HuGene_st: 87414-HuGene_st P2RY1 628249-HuGene_st: 113454-HuGene_st: 627857- 1.41E−15 2.5326 3.6 89.7 82.8-94.4 HuGene_st: 461281-HuGene_st: 207455_at: 259065- HuGene_st: 797734-HuGene_st: 135788-HuGene_st: 42916- HuGene_st: 315405-HuGene_st: 340050-HuGene_st: 173225- HuGene_st: 919818-HuGene_st: 591228-HuGene_st: 899117- HuGene_st: 785070-HuGene_st: 286200-HuGene_st: 231925_at SORBS2 238751_at: 805920-HuGene_st 4.23E−05 1.3026 2.1 74.3 65.1-82

TABLE 5 Normal Gene Blood MRC5 CaCo2 HCT116 HT29 SW480 CXCL12 Unmeth low unmeth meth meth unmeth DF Low meth meth meth unmeth meth MAMDC2 Unmeth unmeth meth unmeth unmeth meth CA4 unmeth unmeth meth meth meth unmeth MT1M low low low meth low meth P2RY14 unmeth Low Meth Meth Unmeth Meth GPM6B Low Low Low Meth Meth Meth ADAMDEC1 low Unmeth Meth Meth unmeth meth

TABLE 6 Probe Set ID Target Sequence   1 200600 tagtcttggggcaggatgattttggcctcattactttaccacccccacacctggaaagcatatactatattacaaaatgacattttgcc _at aaaattattaatataagaagctttcagtattagtgatgtcatctgtcactataggtcatacaatccattcttaaagtacttgttatttg tttttattattactgtttgtcttctccccagggttcagtccctcaaggggccatcctgtcccaccatgcagtgccccctagcttagagc ctccctcaattccccctggccaccaccccccactctgtgcctgaccttgaggagtcttgtgtgcattgctgtgaattagctcacttggt gatatgtcctatattggctaaattgaaacctggaattgtggggcaatctattaatagctgccttaaagtcagtaacttacccttaggga ggctgggggaaaaggttagattttgtattcaggggttttttgtgtactttttgggtttttaaaaaattgtttttggaggggtttatgct caatccatgt   2 200621 gatagcctcccactaggactgggaggagaataacccaggtcttaaggaccccaaagtcaggatgttgtttgatcttctcaaacatctag _at ttccctgcttgatgggaggatcctaatgaaatacctgaaacatatattggcatttatcaatggctcaaatcttcatttatctctggcct taaccctggctcctgaggctgcggccagcagagcccaggccagggctctgttcttgccacacctgcttgatcctcagatgtggagggag gtaggcactgcctcagtcttcatccaaacacctttccctttgccctgagacctcagaatcttccctttaacccaagaccctgcctcttc cactccacccttctccagggacccttagatcacatcactccacccctgccaggccccaggttaggaatagtggtgggaggaaggggaaa gggctgggcctcaccgctcccagcaactgaaaggacaacactatctggagccacccactgaaagggctgcaggcatgggctgtac   3 200665 gttggttcaaacttttgggagcacggactgtcagttctctgggaagtggtcagcgcatcctgcagggcttctcctcctctgtcttttgg _s_at agaaccagggctcttctcaggggctctagggactgccaggctgtttcagccaggaaggccaaaatcaagagtgagatgtagaaagttgt aaaatagaaaaagtggagttggtgaatcggttgttctttcctcacatttggatgattgtcataaggtttttagcatgttcctccttttc ttcaccctcccctttgttcttctattaatcaagagaaacttcaaagttaatgggatggtcggatctcacaggctgagaactcgttcacc tccaagcatttcatgaaaaagctgcttcttattaatcatacaaactctcaccatgatgtg   4 200795 aacactgcataacccgtttctttgaggagtgtgaccccaacaaggataagcacatcaccctgaaggagtggggccactgctttggaatt _at aaagaagaggacatagatgaaaatctcttgttttgaacgaagattttaaagaactcaactttccagcatcctcctctgttctaaccact tcagaaatatatgcagctgtgatacttgtagatttatatttagcaaaatgttagcatgtatgacaagacaatgagagtaattgcttgac aacaacctatgcaccaggtatttaacattaactttggaaacaaaaatgtacaattaagtaaagtcaacatatgcaaaatactgtacatt gtgaacagaagtttaattcatagtaatttcactctctgcattgacttatgagataattaatgattaaactattaatgataaaaataatg catttgtattgttcataatatcatgtgcacttcaagaaaatggaatgctactcttttgtggtttac   5 200799 ggccgacaagaagaaggtgctggacaagtgtcaagaggtcatctcgtggctggacgccaacaccttggccgagaaggacgagtttgagc _at acaagaggaaggagctggagcaggtgtgtaaccccatcatcagcggactgtaccagggtgccggtggtcccgggcctgggggcttcggg gctcagggtcccaagggagggtctgggtcaggccccaccattgaggaggtagattaggggcctttccaagattgctgtttttgttttgg agcttcaagactttgcatttcctagtatttctgtttgtcagttctcaatttcctgtgtttgcaatgttgaaattttttggtgaagtact gaacttgctttttttccggtttctacatgcagagatgaatttatactgccatcttacgactatttcttctttttaatacacttaactca ggccatttttt   6 200845 tcctgtcacccattttgaagagtggcagaacttgaagttcaacttcctctgtaaatatccaagtataaagcccaggaacttctagaata _s_at acccagatgcgctttaattttttttaatatgttttgatcacagaacttctagaataacccagatgctctttcatattcttttaatacat cttgatcacagctgggggaaaaaaagctttttaattctgtaccttcctagtagataagtgaagagcagggaaagagacctttaaatatt ttgctataaaaaaatttgtgataagtttctatcaaaatggggagattgcagaaaaggcttcccttggctcccaaggaggtgtagcaggt gtgagcaatattagtgccatgtgcctttcacacagggtttgcatttatcagtctgttttccgatgatgtgtacatgaaagagtacacca tgtgaagagaagagagaatgattgaaaatgttttagtatagaactcttcttgcagtgggttgctattttctagatttta   7 200859 gtttgtagactctctgaccaaggccacctgtgccccccagcatggggccccgggtcctgggcctgctgacgccagcaaggtggtggcca _x_at agggcctggggctgagcaaggcctacgtaggccagaagagcagcttcacagtagactgcagcaaagcaggcaacaacatgctgctggtg ggggttcatggcccaaggaccccctgcgaggagatcctggtgaagcacgtgggcagccggctctacagcgtgtcctacctgctcaagga caagggggagtacacactggtggtcaaatgggggcacgagcacatcccaggcagcccctaccgcgttgtggtgccctgagtctggggcc cgtgccagccggcagcccccaagcctgccccgctacccaagcagccccgccctcttcccctcaaccccggcccaggccgccctggccgc ccgcctgtcactgcagctgcccctgccctgtgccgtgctgcgctcacctgcctccccagccagccgctgacctctcggctttcacttgg gcagagggagccatttggtggcgctgct   8 200884 cctcacccagattgaaactctcttcaagtctaaggactatgagttcatgtggaaccctcacctgggctacatcctcacctgcccatcca _at acctgggcaccgggctgcgggcaggtgtcgatatcaagctgcccaacctgggcaagcatgagaagttctcggaggtgcttaagcggctg cgacttcagaagcgaggcacaggcggtgtggacacggctgcggtgggcggggtcttcgacgtctccaacgctgaccgcctgggcttctc agaggtggagctggtgcagatggtggtggacggagtgaagctgctcatcgagatggaacagcggctggagcagggccaggccatcgacg acctcatgcctgcccagaaatgaagcccggcccacacccgacaccagccctgctgcttcctaacttattgcctgcagtgcccaccatgc acccctcgatgttgccgtctggcgagcccttagccttgctgtaaggaaggcttccgtcacccttggtagagtttat   9 200897 ctctcttagctcagttactcaattcatacgtagtattttttaaaataattttatatctgtgtaccaccccatatatttcatattactgt _s_at ttcacatgtacagctttctacttctttgtaagaacaccaaccaaccaaggtttaagtgattaataggcttgagcaccgggtggcagatg ttctatgcagtgtggttcaagtttctttgaccgcacttatatgcattgctaatatggaatttaagataccatacacagtctctcatgga cctatctctattgtagaattatgacttatgtcttacttggcaaatttttctgaatgtgacctttttttgctgatttgctgggtttggga ttaactagcattattttgccacctt  10 200974 aagagttacgagttgcctgatgggcaagtgatcaccatcggaaatgaacgtttccgctgcccagagaccctgttccagccatccttcat _at cgggatggagtctgctggcatccatgaaaccacctacaacagcatcatgaagtgtgatattgacatcaggaaggacctctatgctaaca atgtcctatcagggggcaccactatgtaccctggcattccgaccgaatgcagaaggagatcacggccctagcacccagcaccatgaaga tcaagatcattgcccctccggagcgcaaatactctgtctggatcggtggctccatcctggcctctctgtccaccttccagcagatgtgg atcagcaaacaggaatacgatgaagccgggccttccattgtccaccgcaaatgcttctaaaacactttcctgctcctctctgtctctag cacacaactgtgaatgtcctgtggaattatgccttcagttcttttccaaatcattcctagccaaagctctgactcgt  11 200986 gacgaccagccaggatatgctctcaatcatggagaaattggaattcttcgatttttcttatgaccttaacctgtgtgggctgacagagg _at acccagatcttcaggtttctgcgatgcagcaccagacagtgctggaactgacagagactggggtggaggcggctgcagcctccgccatc tctgtggcccgcaccctgctggtctttgaagtgcagcagcccttcctcttcgtgctctgggaccagcagcacaagttccctgtcttcat ggggcgagtatatgaccccagggcctgagacctgcaggatcaggttagggcgagcgctacctctccagcctcagctctcagttgcagcc ctgctgctgcctgcctggacttgcccctgccacctcctgcctcaggtgtccgctatccaccaaaagggctcctgagggtctgggcaagg gacctgcttctattagcccttctccatggccctgccatgctctccaaaccactttttgcagctttctc  12 201041 gcaataactctgggaggggctcgagagggctggtccttatttatttaacttcacccgagttcctctgggtttctaagcagttatggtga _s_at tgacttagcgtcaagacatttgctgaactcagcacattcgggaccaatatatagtgggtacatcaagtccatctgacaaaatggggcag aagagaaaggactcagtgtgtgatccggtttctttttgctcgcccctgttttttgtagaatctcttcatgcttgacatacctaccagta ttattcccgacgacacatatacatatgagaatataccttatttatttttgtgtaggtgtctgccttcacaaatgtcattgtctactcct agaa  13 201058 gcatcctcaaacatggcgccaaggataaacacgactaggccatccccagccccctgacacccagcccccgccagtcacccctccccgca _s_at cacacccgtccataccagctccctgcccatgaccctcgctcagggatccccctttgagggttagggtcccagttcccagtggaagaaac aggccaggagagtgcgtgccgagctgaggcagatgttcccacagtgaccccagagccctgggctatagtctctgacccctccaaggaaa gaccaccttctggggacatgggctggagggcaggacctagaggcaccaagggaaccgcattccggggctgttccccgaggaggaaggga agcctctgtgtgccccccaggaggaagaggccctgagtcctgggatcagacaccccttcacgtgtatcccacacaaatgcaagctcacc aaggtccc  14 201061 tatagctctctttagctcaaccactctgtccatccagccaatggatgtccttccctgtacccaattcaagcttattttagggaagcctt s_at gaaactaccatgtatctggctctagctgagttattgaggattgagccagtgcaacgttaaactcagtgcacttacatttgatttaaatg atggttttatctgttgtgtgaagtggttcacccttgaggaccaggagcctccatatcctgactgaaaaccttttctgagacttagagta acagtacttttggttccttgagttctcctgtctccagatacctaaatgaccttgacttttctgccttgtgaattcgtagtccaatcagc tgaaattaaatcacttgggagggacgcatagaaggagctctaggaacacagtgccagtgcagaagtttctccaggtggcc  15 201069 ctcagagccacccctaaagagatcctttgatattttcaacgcagccctgctttgggctgccctggtgctgccacacttcaggctcttct _at cctttcacaaccttctgtggctcacagaacccttggagccaatggagactgtctcaagagggcactggtggcccgacagcctggcacag ggcagtgggacagggcatggccaggtggccactccagacccctggcttttcactgaggctgccttagaacctttcttacattagcagtt tgctttgtatgcactttgtttttttctttgggtcttgttttttttttccacttagaaattgcatttcctgacagaaggactcaggttgt ctgaagtcactgcacagtgcatctcagcccacatagtgatggttcccctgttcactctacttagcatgtccctaccgagtctcttctcc actggatggaggaaaaccaagccgtggcttcccgctcagccctccctgcccctcccttcaaccattccccatgggaaat  16 201105 ctcctggactcaatcatggcttgtggtctggtcgccagcaacctgaatctcaaacctggagagtgccttcgagtgcgaggcgaggtggc _at tcctgacgctaagagcttcgtgctgaacctgggcaaagacagcaacaacctgtgcctgcacttcaaccctcgcttcaacgcccacggcg acgccaacaccatcgtgtgcaacagcaaggacggcggggcctgggggaccgagcagcgggaggctgtattcccttccagcctggaagtg ttgcagaggtgtgcatcaccttcgaccaggccaacctgaccgtcaagctgccagatggatacgaattcaagttccccaaccgcctcaac ctggaggccatcaactacatggcagctgacggtgacttcaa  17 201137 ggcagcattcaagtccgatggttcctgaatggacaggaggaaacagctggggtcgtgtccaccaacctgatccgtaatggagactggac _s_a catccagatcctggtgatgctggaaatgaccccccagcagggagacgtctacatctgccaagtggagcacaccagcctggatagttccg tcaccgtggagtggaaggcacagtctgattctgcccagagtaagacattgacgggagctgggggcttcgtgctggggctcatcatctgt ggagtgggactcttcatgcacaggaggagcaagaaagttcaacgaggatctgcataaacagggttcctgacctcaccgaaaagactaat gtgccttagaacaagcatttgctgtgttttgttaacacctggttccaggacagaccctcagcttcccaagaggatactgctgccaagaa gttgctctgaagtcagtttctatcgttctgctctttgattcaaa  18 201141 agaggcgggatactttcagctttccatgtaactgtatgcataaagccaatgtagtccagtttctaagatcatgttccaagctaactgaa _at tcccacttcaatacacactcatgaactcctgatggaacaataacaggcccaagcctgtggtatgatgtgcacacttgctagactcagaa aaaatactactctcataaatgggtgggagtattttggtgacaacctactttgcttggctgagtgaaggaatgatattcatatattcatt tattccatggacatttagttagtgctttttatataccaggcatgatgctgagtgacactcttgtgtatatttccaaatttttgtatagt cgctgcacatatttgaaatcatatattaagactttccaaagatgaggtccctggtttttcatggcaacttgatcagtaaggatttcacc tctgtttgtaacta  19 201150 gactttttggaatagccctgtctagggcaaactgtggcccccaggagacactacccttccatgccccagacctctgtcttgcatgtgac _s_at aattgacaatctggactaccccaagatggcacccaagtgtttggcttctggctacctaaggttaacatgtcactagagtatttttatga gagacaaacattataaaaatctgatggcaaaagcaaaacaaaatggaaagtaggggaggtggatgtgacaacaacttccaaattggctc tttggaggcgagaggaaggggagaacttggagaatagtttttgctttgggggtagaggcttcttagattctcccagcatccgcctttcc ctttagccagtctgctgtcctgaaacccagaagtgatggagagaaaccaacaagagatctcgaaccctgtctagaaggaatgtatttgt tgctaaatttcgtagcactgtttacagttttcctccatgttatttatg  20 201289 gccacgattggagaatactttgcttcatagtattggagcacatgttactgcttcattttggagcttgtggagttgatgactttctgttt _at tctgtttgtaaattatttgctaagcatattttctctaggcttttttccttttggggttctacagtcgtaaaagagataataagattagt tggacagtttaaagcttttattcgtcctttgacaaaagtaaatgggagggcattccatcccttcctgaagggggacactccatgagtgt ctgtgagaggcagctatctgcactctaaactgc  21 201300 ttaggtcaagttcatagtttctgtaattggcttttgaatcaaagaatagggagacaatctaaaaaatatcttaggttggagatgacaga _s_at aatatgattgatttgaagtggaaaaagaaattctgttaatgttaattaaagtaaaattattccctgaattgtttgatattgtcacctag cagatatgtattacttttctgcaatgttattattggcttgcactttgtgagtatctatgtaaaaatatatatgtatataaaatatatat tgcataggacagacttaggagttttgtttagagcagttaacatctgaagtgtctaatgcattaacttttgtaaggtactgaatacttaa tatgtgggaaacccttttgcgtggtccttaggcttacaatgtgcactgaatcgtttcatgtaagaatccaaagtggacaccattaacag gtctttgaaatatgcatgtactttatattttctatatttgtaactttgcatgttcttgttttgtta  22 201324 caccaaattacctaggctgaggttagagagattggccagcaaaaactgtgggaagatgaactttgtcattatgatttcattatcacatg _at attatagaaggctgtcttagtgcaaaaaacatacttacatttcagacatatccaaagggaatactcacattttgttaagaagttgaact atgactggagtaaaccatgtattcccttatcttttactttttttctgtgacatttatgtctcatgtaatttgcattactctggtggatt gttctagtactgtattgggcttcttcgttaat  23 201348 accagctctaggtccaattgttctgctctaactgatacctcaaccttggggccagcatctcccactgcctccaaatattagtaactatg _at actgacgtccccagaagtttctgggtctaccacactccccaaccccccactcctacttcctgaagggccctcccaaggctacatcccca ccccacagttctccctgagagagatcaacctccctgagatcaaccaaggcagatgtgacagcaagggccacggaccccatggcaggggt ggcgtcttcatga  24 201426 tgtggatgtttccaagcctgacctcacggctgccctgcgtgacgtacgtcagcaatatgaaagtgtggctgccaagaacctgcaggagg _s_at cagaagaatggtacaaatccnagtttgctgacctctctgaggctgccaaccggnacnatgacgccctgcgccaggcnaagcaggagtcc nctgagtaccggagacaggtgcagtccctcacctgtgaagtggatgcccttaaaggaaccaatgagtccctggaacgccagatgcgtga aatggaagagaactttgccgttgaagctgctaactaccaagacactattggccgcctgcaggatgagattcagaatatgaaggaggaaa tggctcgtcaccttcgtgaataccaagacctgctcaatgttaagatggcccttgacattgagattgccacct  25 201427 gatccagaaatacttaacacgtgaatattttgctaaaaaagcatatataactattttaaatatccatttatcttttgtatatctaagac _s_at tcatcctgatttttactatcacacatgaataaaggcctttgtatctttctttctctaatgttgtatcatactcttctaaaacttgagtg gctgtcttaaaagatataaggggaaagataatattgtctgtctctatattgcttagtaagtatttccatagtcaatgatggtttaatag gtaaaccaaaccctataaacctgacctcctttatggttaatactattaagcaagaatgcagtacagaattggatacagtacggatttgt ccaaat  26 201438 ctccagcagttctctcgaatactttgaatgttgtgtaacagttagccactgctggtgtttatgtgaacattcctatcaatccaaattcc _at ctctggagtttcatgttatgcctgttgcaggcaaatgtaaagtctagaaaataatgcaaatgtcacggctactctatatacttttgctt ggttcattttttttcccttttagttaagcatgactttagatgggaagcctgtgtatcgtggagaaacaagagaccaactttttcattcc ctgcccccaatttcccagactagatttcaagctaattttctttttctgaagcctctaacaaatgatctagttcagaaggaagcaaaatc ccttaatctatgtgcaccgttgggaccaatgccttaattaaagaatttaaaaaagttgtaatagagaatatttttggcattcctctcaa tgttgtgtgtt  27 201495 caagtgcagcgatggggagcgggcccgggcggagctcaatgacaaagtccacaagctgcagaatgaagttgagagcgtcacagggatgc _x_at ttaacgaggccgaggggaaggccattaagctggccaaggacgtggcgtccctcagttcccagctccaggacacccaggagctgcttcaa gaagaaacccggcagaagctcaacgtgtctacgaagctgcgccagctggaggaggagcggaacagcctgcaagaccagctggacgagga gatggaggccaagcagaacctggagcgccacatctccactctcaacatccagctctccgactcgaagaagaagctgcaggactttgcca gcaccgtggaagctctggaagaggggaagaagaggttccagaaggagatcgagaacctcacccag  28 201496 tcaagtccaagttcaagtccaccatcgcggcgctggaggccaagattgcacagctggaggagcaggtcgagcaggaggccagagagaaa _x_at caggcggccaccaagtcgctgaagcagaaagacaagaagctgaaggaaatcttgctgcaggtggaggacgagcgcaagatggccgagca gtacaaggagcaggcagagaaaggcaatgccagggtcaagcagctcaagaggcagctggaggaggcagaggaggagtcccagcgcatca acgccaaccgcaggaagctgcagcgggagnnggatgaggccacggagagcaacgaggccatgggccgcgaggtgaacgcactcaagagc aagctcagagggccccccccacaggaaacttcgcagtgatgcaccaggcgaggaaacgagacctctttcgttccttctagaaggtctgg aggacgtagagttattgaaaatgcagatggttctgaggaggaaacggacactcgagacgcagacttcaatggaaccaaggccagtgaat aagcaactttctacagttttgcaccacgg  29 201497 tgagccaggaagaacgctccagcccaggacttcgaggctgcaatgagctataattgcatcattgcactccagcctgggcaacagagacc _x_at ctgtctcaaccaccaccaccaccaccacccctactacccctgtattcaaggtaaaaattgaagtttgtatgatgtaagagatgagaaaa acccaacaggaaacacagacacatcctccagttctatcaatggattgtgcagacactgagtttttagaaaaacatatccacggtaaccg gtccctggcaattctgtttacatgaaatggggagaaagtcaccgaaatgggtgccgccggcccccactcccaattcattccctaacctg caaacctttccaacttctcacgtcaggcctttgagaattctttccccctctcctggtttccacacctcagacacgcacagttcaccaag tgccttctgtagtcacatgaattgaaaaggagacgctgctcccacggaggggagcaggaatgctgcactgtttacaccctgactgtgct taaaa  30 201539 tgaagtgcaacaaggccatcacatctggaggaatcacttaccaggatcagccctggcatgccgattgctttgtgtgtgttacctgctct _s_at aagaagctggctgggcagcgtttcaccgctgtggaggaccagtattactgcgtggattgctacaagaactttgtggccaagaagtgtgc tggatgcaagaaccccatcactgg  31 201540 cagggctgtcatcaacatggatatgacatttcacaacagtgactagttgaatcccttgtaacgtagtagttgtctgctctttgtccatg _at tgttaatgaggactgcaaagtcccttctgttgtgattcccaggacttttcctcaagaggaaatctggatttccacctaccgcttacctg aaatgcaggatcacctacttactgtattctacattattatatgacatagtataatgagacaatatcaaaagtaaacatgtaatgacaat acatactaacattcttgtaggagtggttagagaagctgatgcctcatttctacattctgtcattagctattatcatctaacgtttcagt g  32 201616 cttgagaccaggagacgtatccagcaagcggaacctctgggaaaagcaatctgtggataaggtcacttcccccactaaggtttgagaca _s_a gttccagaaagaacccaagctcaagacgcaggacgagctcagttgtagagggctaattcgctctgttttgtatttatgttgatttacta aattgggttcattatcttttatttttcaatatcccagtaaacccatgtatattatcactatatttaataatcacagtctagagatgttc atggtaaaagtactgcctttgcacaggagcctgtttctaaagaaacccatgctgtgaaatagagacttttctactgatcatcataactc tgtatctgagcagtgataccaaccacatctgaagtcaacagaagatccaagtttaaaattgcctgcggaatgtgtgcagtatctagaaa  33 201617 tgttgtttctgcactttataataaagcatggaagaaattatcttagtaggcaattgtaacactttttgaaagtaacccatttcagattt _x_at gaaatactgcaataatggttgtctttaaaaaaaaaaagaatgtactgttaaggtattactttttttcatgctgatgattcatatctaaa ttacattattatgttagctgacagtggtactgattttttaggttggttgttttgtggatttctttagtagtgatagtagcctgaaccac attttagataactcaattatgtatgtatgtgcatacacatatacaaacacactaatggtagaatgcttttttatgtgctagactattat atttagtagtatgtcattgtaactagccaatatcacagcttttgaaaaattaaaaaatcatcatcactataatatttcatatttgccaa cagaaacatggcagataggtatcaatatgttttcaatgcctgatgacctat  34 201645 ttttaccaaagcatcaatacaaccagcccaaccatcggtccacacctgggcatttggtgagaatcaaagctgaccatggatccctgggg _at ccaacggcaacagcatgggcctcacctcctctgtgatttctttctttgcaccaaagacatcagtctccaacatgtttctgttttgttgt ttgattcagcaaaaatctcccagtgacaacatcgcaatagttttttacttctcttaggtggctctgggatgggagaggggtaggatgta caggggtagtttgttttagaaccagccgtattttacatgaagctgtataattaattgtcattatttttgttagcaaagattaaatgtgt cattggaagccatccctttttttacatttcatacaacagaaaccagaaaagcaatactgtttccattttaaggatatgattaatattat taatataataatgatgatgatgatgatgaaaactaaggatttttcaagagatctttctttccaaaacatttctggacagtacctgattg t  35 201667 gagtggactattaaatgtgcctaaatgaattttgcagtaactggtattcttgggttttcctacttaatacacagtaattcagaacttgt _at attctattatgagtttagcagtcttttggagtgaccagcaactttgatgtttgcactaagattttatttggaatgcaagagaggttgaa agaggattcagtagtacacatacaactaatttatttgaactatatgttgaagacatctaccagtttctccaaatgccttttttaaaact catcacagaagattggtgaaaatgctgagtatgacacttttcttcttgcatgcatgtcagctacataaacagttttgtacaatgaaaat tactaatttgtttgacattccatgttaaactacggtcatgttcagcttcattgcatgtaatgtagacctagtccatcaga  36 201739 tgctgtgtgaaccgtcgtgtgagtgtggtatgcctgatcacagatggattttgttataagcatcaatgtgacacttgcaggacactaca _at acgtgggacattgtttgtttcttccatatttggaagataaatttatgtgtagacttttttgtaagatacggttaataactaaaatttat tgaaatggtcttgcaatgactcgtattcagatgcctaaagaaagcattgctgctacaaatatttctatttttagaaagggtttttatgg accaatgccccagttgtcagtcagagccgttggtgtttttcattgtttaaaatgtcacctgtaaaatgggcattatttatgtttttttt tttgcattcctgataattgtatgtattgtataaagaacgtctgtacattgggttataacactagtatatttaaacttacaggcttattt gtaatgtaaaccaccattttaatgtactgtaattaacatggttataatacgtacaatccttccctcatcccatcacacaactttttttg  37 201743 ccatccagaatctagcgctgcgcaacacaggaatggagacgcccacaggcgtgtgcgccgcactggcggcggcaggtgtgcagccccac _at agcctagacctcagccacaactcgctgcgcgccaccgtaaaccctagcgctccgagatgcatgtggtccagcgccctgaactccctcaa tctgtcgttcgctgggctggaacaggtgcctaaaggactgccagccaagctcagagtgctcgatctcagctgcaacagactgaacaggg cgccgcagcctgacgagctgcccgaggtggataacctgacactggacgggaatcccttcctggtccctggaactgccctcccccacgag ggctcaatgaactccggcgtggtcccagcctgtgcacgttcgaccctgtcggtgggggtgtcgggaaccctggtgctgctccaaggggc ccggggctttgcctaagatccaagacagaataatgaatggactcaaactgccttggcttcaggggagtcccgtcaggacgttgaggact tttcgaccaattcaacc  38 201744 caaatgatgtgcaaaaccttttactggttgcatggaaatcagccaagttttataatccttaaatcttaatgttcctcaaagcttggatt _s_at aaatacatatggatgttactctcttgcaccaaattatcttgatacattcaaatttgtctggtaaaaaaataggtggtagatattgaggc caagaatattgcaaaatacatgaagcttcatgcacttaaagaagtatttttagaataagaatttgcatacttacctagtgaaacttttc tagaattatttttcactctaagtcatgtatgtttctct  39 201842 tcagcagtatagggaccttccgcacaagctctgtgttaagattgacaataatagtggggccattttcattttagtcttttctaagagtc _s_at aaccacaggcatttaagtcagccaaagaatattgttaccttaaagcactattttatttatagatatatctagtgcatctacatctctat actgtacactcacccataattcaaacaattacaccatggtataaagtgggcatttaatatgtaaagattcaaagtttgtctttattact atatgtaaattagacattaatccactaaactggtcttcttcaagagagctaagtatacactatctggtgaaacttggattctttcctat aaaagtgggaccaagcaatgatgatcttctgtggtgcttaaggaaacttactagagctccactaacagtctcataaggaggcagccatc ataaccattga  40 201852 gtgccaatcctttgaatgttccacggaaacactggtggacagattctagtgctgagaagaaacacgtttggtttggagagtccatggat _x_at ggtggttttcagtttagctacggcaatcctgaacttcctgaagatgtccttgatgtgcagctggcattccttcgacttctctccagccg agcttcccagaacatcacatatcactgcaaaaatagcattgcatacatggatcaggccagtggaaatgtaaagaaggccctgaagctga tggggtcaaatgaaggtgaattcaaggctgaaggaaatagcaaattcacctacacagttctggaggatggttgcacgaaacacactggg gaatggagcaaaacagtctttgaatatcgaacacgcaaggctgtgagactacctattgtagatattgcaccctatgacattggtggtcc tgatcaagaatttggtgtggacgttggccct  41 201858 cctggttctggaatcctcagttcaaggttatcctacgcagagagccaggtaccaatgggtgcgctgcaatccagacagtaattctgcaa _s_at actgccttgaagaaaaaggaccaatgttcgaactacttccaggtgaatccaacaagatcccccgtctgaggactgacctttttccaaag acgagaatccaggacttgaatcgtatcttcccactttctgaggactactctggatcaggcttcggctccggctccggctctggatcagg atctgggagtggcttcctaacggaaatggaacaggattaccaactagtagacgaaagtgatgctttccatgacaaccttaggtctcttg acaggaatctgccctcagac  42 201859 tatgctttaatgctgttatctatcttattgttcttgaaaatacctgcattttttggtatcatgttcaaccaacatcattatgaaattaa _at ttagattcccatggccataaaatggctttaaagaatatatatatatttttaaagtagcttgagaagcaaattggcaggtaatatttcat acctaaattaagactctgacttggattgtgaattataatgatatgccccttttcttataaaaacaaaaaaaaaataatgaaacacagtg aatttgtagagtgggggtatttgacatattttacagggtggagtgtactatatactattacctttgaatgtgtttgcagagctagtgga tgtgtttgtctacaagtatgattgctgttacataacaccccaaattaactcccaaattaaaacacagttgtgctgtcaatacctcatac tgctttaccttttttcctggatatctgtgtattttc  43 201865 gttgagtcgtcatcacttttcagtgatgggagagtagatggtgaaatttattagttaatatatcccagaaattagaaaccttaatatgt _x_at ggacgtaatctccacagtcaaagaaggatggcacctaaaccaccagtgcccaaagtctgtgtgatgaactttctcttcatacttttttt cacagttggctggatgaaattttctagactttctgttggtgtatcccccccctgtatagttaggatagcatttttgatttatgcatgga aacctgaaaaaaagtttacaagtgtatatcagaaaagggaagttgtgccttttatagctattactgtctggttttaacaatttccttta tatttagtgaactacgcttgctcattttttcttacataattttttattcaagttattgtacagctgtttaagatgggcagctagttcgt agctttcccaaataaactctaaacattaatcaatcatctgtgtgaaaatgggttggtgcttctaacctgatggcacttagctatcagaa gaccacaaaaattgactcaaatctccagtattcttg  44 201893 tctcctacatccgcattgctgataccaatatcaccagcattcctcaaggtcttcctccttcccttacggaattacatcttgatggcaac _x_at aaaatcagcagagttgatgcagctagcctgaaaggactgaataatttggctaagttgggattgagtttcaacagcatctctgctgttga caatggctctctggccaacacgcctcatctgagggagcttcacttggacaacaacaagcttaccagagtacctggtgggctggcagagc ataagtacatccaggttgtctaccttcataacaacaatatctctgtagttggatcaagtgacttctgcccacctggacacaacaccaaa aaggcttcttattcgggtgtgagtcttttcagcaacccggtccagtactgggagatacagccatccaccttcagatgtgtctacgtgcg ctctgccattcaactcggaaactataagtaattctcaagaaagccctcatttttataacctgg  45 201920 gtatcaggcttcaattccattatgttttaatgttgtctctgaagatgacttgtgatttttttttcttttttttaaaccatgaagagccg _at tttgacagagcatgctctgcgttgttggtttcaccagcttctgccctcacatgcacagggatttaacaacaaaaatataactacaactt cccttgtagtctcttatataagtagagtccttggtactctgccctcctgtcagtagtggcaggatctattggcatattcgggagcttct tagagggatgaggttctttgaacacagtgaaaatttaaattagtaacttttttgcaagcagtttattgactgttattgctaagaagaag taagaaagaaaaagcctgttggcaatcttggttatttctttaagatttctggcagtgtgggatggatgaatgaagtggaatgtgaactt tgggcaagttaaatgggacagccttccatgttcatttgtctacctcttaactga  46 201957 gttgtgcctaccactggctggcacaccagggcaatgatttccctgcagaaggaaggaaagaatgtttcacccttgcatccttcttggag _at aagctacagcctgtgctcagttgagtggttcacactcagactttggctttatggttttccttcctccttgtctttgccctgaccttgat caacaggggtgaaaagaaccaccctgaggtttccatgcctctcccattttagtggtagcattttgtgtctttactccacccttcaccct agttccaccaaggttcacacaccagatgtaactgtttttcagctgagttgtatggattaacttcatccactgtaaatacacctgggatg ggggtggggttggcttgtttagggagaagcagccagacttgctttgtgaactgaatgtatttttatgcaattttgagtggcctttcaac cctaaga  47 202007 tatcagtagctcgtgttatctttttatcaactgcttcccagngtcctaaaacaatagaaattttggattgaaaagttcagcataaggag _at tttgagtcagtaaaggatgggataaaggagtcgagatgattcaatgaaaagtatcacaaaaaagagattgatcaacaagagaaataaaa aagcccaagaggaagtggtaggggaaggaatttaagaacagcaataagtaaaactcttaagtaactccaaaaagaaaatggtacatttt gccaaagaccacttatacttgagaacatggaagaatttgcctgatactctctttggggaaaagagtctctcctcttttcctcaaacccc agtacactcagcctctctgccccaccttctcctgactttgtcctcacttgcttctgcagtacattggaacctgaattgaaagaaagtct tccttgaataattggagtttgtcttgagaggcaaatatagccccaagaatcacaagattcgaggaccatgtaggtcttttacgtagccc aaatccataaattagtctcactttttgtatttatcgtttcatattaaaccctctatatca  48 202037 taacacttggctcttggtacctgtgggttagcatcaagttctccccagggtagaattcaatcagagctccagtttgcatttggatgtgt _s_at aaattacagtaatcccatttcccaaacctaaaatctgtttttctcatcagactctgagtaactggttgctgtgtcataacttcatagat gcaggaggctcaggtgatctgtttgaggagagcaccctaggcagcctgcagggaataacatactggccgttctgacctgttgccagcag atacacaggacatggatgaaattcccgtttcctctagtttcttcctgtagtactcctcttttagatcc  49 202069 cagtcactctaaatggacaccacatgaacctctgtttagaatacctacgtatgtatgcattggtttgcttgtttcttgacagtacattt _s_at ttagatctggccttttcttaacaaaatctgtgcaaaagatgcaggtggatgtccctaggtctgttttcaaagaactttttccaagtgct tgattatttattaagtgtctacctggtaaatgttttttttgtaaactctgagtggactgtatcatttgctattctaaaccattttacac ttaagttaaaatagtttctcttcagctgtaaataacaggatacagaattaacaagagaaaatgtctaactttttaagaaaaaccttatt ttcttcggtttttgaaaaacataatggaaataaaacaggatattgacataatagcacaaaatgacactcttctaaaactaaatgggcac aagagaattttcctggga  50 202133 gtcaaaacctaattgcaattctgttaaatctaagtaatttttagacagtgtttcaccgtattatttaggatgtgaaatgccatttcttt _at cactgattacaccatatacaggaaacaggtaaaacagtgaaaactttattgtgctggttgatgccaacttggttgaaaagctctctgca gaagaagtgatctagactgacagaagtgttgctaattacaagttgtgttctcatgacgtaattagaaagtaacttctcaaagtacaact tttatgaaaaaaataagctgttaaaaaaaggaaatcgtaggttaatttaattgggaaaatgggcaattgacagagaccattttcctaac acatatatgtgctagtactttaactttttaaaattttacttctacgttttgtaatataaaaatttctattttaagtttagaatgttata cgtaccgaaagtatgcagccaaatcgatcagatcaaaccattttacctggagtt  51 202222 agctgtgagccttggctgttggcagtgagtgagcctggctcttgtgctggatggagcccaggcgggagcggtggccctgtccctcccac _s_at ctctgtgacctgaggcctacgctttggctctggagatagccccagagcagggtgttgggatactgcagggccaggactgagcccc  52 202242 ctgttagctcctcactgtggtaaatgccacacacctttaagtagataagcagacgatagttatctgttcttttgacttaatctcatttg _at gtttgattttccctctactaaggctttcctaccttcttcaggctgcctaagacatgtaagcgaaacacttcaataattgtccatgagga gaaaaaaagcattgtcatgcatgaaggaaactgaacttgaggtggcctccttgcttgttacatacctgggtatgtgtaggcagtttagt gcatctttgcctctcagttgaaacctgtataaccctgttacaaagctgtgttgttgcttcttgtgaaggccatgatattttgttttttc cccaattaattgctattgtgttattttactaacttctctctgtattttttcttgcattgacattatagacattgaggacctcatccaaa caatttaaaaatgagtgtgaagggggaacaagtcaaaatatttttaaaagatcttcaaaaataatgcctctgtctagcatgccaac  53 202266 tgtcagagttttcaacggtgcttatagctgccagctggattccaaacaggtaccccattgtctctgagctaatgtttatatttttccat _at tcaggcaccgaaatagttaatatttaaaataagtcttcaaaagaaaacataagagattattgagttcttgggactggatcattatttca taagttcagatcatcttaaatgaaaatgccatgattatctgcagttaagtagatgacagctattctacatcagacttgatttttgtcag ctaattacataattggtaagctataattgaaaccttatggataaaattccttaactcctttttgattcatgtttgtagtcatgttgtca acagaggcaaagttaagcttgatgatggttaaaatcggtttgatagcaccatgggacatttttctaacaaaaataaatgcatgaagaga catagccttttagttttgct  54 202274 aagagctatgagctgccagatgggcaggttatcaccattggcaatgagcgcttccgctgccctgagaccctcttccagccttcctttat _at tggcatggagtccgctggaattcatgagacaacctacaattccatcatgaagtgtgacattgacatccgtaaggacttatatgccaaca atgtcctctctgggggcaccaccatgtaccctggcattgctgacaggatgcagaaggagatcacagccctggcccccagcaccatgaag atcaagattattgctcccccagagcggaagtactcagtctggatcgggggctctatcctggcctctctctccaccttccagcagatgtg gatcagcaagcctgagtatgatgaggcagggccctccattgtccacaggaagtgcttctaaagtcagaacaggttctccaaggatcccc  55 202283 caactgcccttgaccggaagcatgagtatcatcttcttcctgcccctgaaagtgacccagaatttgaccttgatagaggagagcctcac _at ctccgagttcattcatgacatagaccgagaactgaagaccgtgcaggcggtcctcactgtccccaagctgaagctgagttacgaaggcg aagtcaccaagtccctgcaggagatgaagctgcaatccttgtttgattcaccagactttagcaagatcacaggcaaacccatcaagctg actcaggtggaacaccgggctggctttgagtggaacgaggatggggcgggaaccacccccagcccagggctgcagcctgcccacctcac cttcccgctggactatcaccttaaccagcctttcatcttcgtactgagggacacagacacaggggcccttctcttcattggcaagattc tggaccccaggggcccctaatatcccagtttaatattccaataccctagaagaaaacccgagggacagcagattccacag  56 202291 ctgacctgcaggacgaaaccatgaagagcctgatccttcttgccatcctggccgccttagcggtagtaactttgtgttatgaatcacat _s_at gaaagcatggaatcttatgaacttaatcccttcattaacaggagaaatgcaaataccttcatatcccctcagcagagatggagagctaa agtccaagagaggatccgagaacgctctaagcctgtccacgagctcaatagggaagcctgtgatgactacagactttgcgaacgctacg ccatggtttatggatacaatgctgcctataatcgctacttcaggaagcgccgaggggccaaatgagactgagggaagaaaaaaaatctc tttttttctggaggctggcacctgattttgtatccccctgtagcagcattactgaaatacataggcttatatacaatgcttctttcct  57 202350 gaagccctggaaaatcgcctgagatacagatgaagattagaaatcgcgacacatttgtagtcattgtatcacggattacaatgaacgca _s_at gtgcagagccccaaagctcaggctattgttaaatcaataatgttgtgaagtaaaacaatcagtactgagaaacctggtttgccacagaa caaagacaagaagtatacactaacttgtataaatttatctaggaaaaaaatccttcagaattctaagatgaatttaccaggtgagaatg aataagctatgcaaggtattttgtaatatactgtggacacaacttgcttctgcctcatcctgccttagtgtgcaatctcatttgactat acgataaagtttgcacagtcttacttctgtagaacactggccataggaaatgctgtttttttgtactggactttaccttgatatatgt  58 202388 gctggtatcagaacagcttccctcactgtgtacagaacgcaagaagggaataggtggtctgaacgtggtgtctcactctgaaaagcagg _at aatgtaagatgatgaaagagacaatgtaatactgttggtccaaaagcatttaaaatcaatagatctgggattatgtggccttaggtagc tgtgttacatctttccctaaatcgatccatgttaccacatagtagttttagtttaggattcagtaacagtgaagtgtttactatgtgca agggtattgaagttcttatgaccacagatcatcagtactgttgtctcatgtaatgctaaaactgaaatggtccgtgtttgcattgttaa aaatgatgtgtgaaatagaatgagtgctatggtgttgaaaactgcagtgtccgttatgagtgccaaaaatctgtcttgaaggcagctac actt  59 202403 aacctgaaaacatcccagccaagaactggtataggagctccaaggacaagaaacacgtctggctaggagaaactatcaatgctggcagc _s_at cagtttgaatataatgtagaaggagtgacttccaaggaaatggctacccaacttgccttcatgcgcctgctggccaactatgcctctca gaacatcacctaccactgcaagaacagcattgcatacatggatgaggagactggcaacctgaaaaaggctgtcattctacagggctcta atgatgttgaacttgttgctgagggcaacagcaggttcacttacactgttcttgtagatggctgctctaaaaagacaaatgaatgggga aagacaatcattgaatacaaaacaaataagccatcacgcctgcccttccttgatattgcacctttggacatcggtggtgctgaccagga attctttgtggacattggcccagtctgtt  60 202555 gagccattggaagactgtcctctatggcaatgatctcagggctcagtggcaggaaatcctcaacagggtcaccaaccagcccgctcaat _s_at gcagaaaaactagaatctgaagatgtgtcccaagctttccttgaggctgttgctgaggaaaagcctcatgtaaaaccctatttctctaa gaccattcgcgatttagaagttgtggagggaagtgctgctagatttgactgcaagattgaaggatacccagaccccgaggttgtctggt tcaaagatgaccagtcaatcagggagtcccgccacttccagatagactacgatgaggacgggaactgctctttaattattagtgatgtt tgcggggatgacgatgccaagtacacctgcaaggctgtcaacagtcttggagaagccacctgcac  61 202620 ttatcaagtgtcaagatcagcaagtgtccttaagtcaaataggtttttttttgttggtggttgtgcttgctttccttttttagaaagtt _s_at ctagaaaataggaaaacgaaaaatttcattgagatgagtagtgcatttaattattttttaaaaaactttttaagtacttgaattttata tcaggaaaacaaagttgttgagccttgcttcttccgttttgccctttgtctcgctccttattcttttttggggggagggttatttgatt tttatcttcctggcataatttccattttattcttctgagtgtctatgttaacttccctctatcccgcttataaaaaaattctccaacaa aaatacttgttgacttgatgttttatcacttctctaagtaaggttgaaatatccttattgtagctactgttttaatgtaaaggttaaac cttgaaaagaaattcttaatacggtgccaaaattcattttctaacaccatgtgtt  62 202686 agattctaacggtctgttctgtttcaaggcactctagattccattggtccaagattccggatcctaagcatctaagttataagactctc _s_at acactcagttgtgactaactagacaccaaagttctaataatttctaatgttggacacctttaggttctttgctnnattctgcctctcta ggaccatggttaagagtccaagaatccacatttctaaaatcttatagttctaggcactgtagttctaagactcaaatgttctaagtttc taagattctaaaggtccacaggtctagactattaggtgcaatttcaaggttctaaccctatactgtagtattctttggggtgcccctct ccttcttagctatcattgcttcctcctccccaactgtgggggtgtgcccccttcaagcctgtgcaatgcattagggatgcctcctttcc gcaggggatggacgatctcccacctttcgggccatgttgcccccgtgagccaatccctcaccttctgagtacagagtgtggactctggt gcctcca  63 202731 ggctctggaggtgggcagcaatctgtcaatcaccttgttaaagagattgatatgctgctgaaagaatatttactctctggagacatatc tgaagctgaacattgccttaaggaactggaagtacctcattttcaccatgagcttgtatatgaagctattataatggttttagagtcaa _at ctggagaaagtacatttaagatgattttggatttattaaagtccctttggaagtcttctaccattactgtagaccaaatgaaaagaggt tatgagagaatttacaatgaaattccggacattaatctggatgtcccacattcatactctgtgctggagcggtttgtagaagaatgttt tcaggctggaataatttggaaacaactcagagatctttgtccttcaaggggcagaaagcgttttgtaagcgaaggagatggaggtcgtc ttaaaccagagagctactgaatataagaactcttgcagtcttagatgttat  64 202741 gtaagattcctcctaactttcacagtcgatgacaagattgtctttttatctgatattttgaagggtatattgctttgaagtaagtctca _at ataaggcaatatattttagggcatctttcttcttatctctgacagtgttcttaaaattatttgaatatcataagagccttggtgtctgt cctaattcctttctcactcaccgatgctgaatacccagttgaatcaaactgtcaacctaccaaaaacgatattgtggcttatgggtatt gctgtctcattcttggtatattcttgtgttaactgcccattggcctgaaaatactcattgtaagcctgaaaaaaaaaatctttcccact gttttttctgcttgttgtaagaatcaaatgaaataatgtatgtgaaagcaccttgtaaactgtaacctatcaatgtaaaatgttaaggt gtgttgttatttcattaattacttctttgtttagaatggaatttcctatgcactactgtagc  65 202742 tacacttttttttgccaactgacttaacaacattgctgtcaggtggaaatttcaagcacttttgcacatttagttcagtgtttgttgag s_at aatccatggcttaacccacttgttttgctatttttttctttgcttttaattttccccatctgattttatctctgcgtttcagtgaccta ccttaaaacaacacacgagaagagttaaactgggttcattttaatgatcaatttacctgcatataaaatttatttttaatcaagctgat cttaatgtatataatcattctatttgctttattatcggtgcaggtaggtcattaacaccacttcttttcatctgtaccacaccctggtg aaacctttgaagacataaaaaaaacctgtctgagatgttctttctaccaatctatatgtctttcggttatcaagtgtttctgcatggta atgtc  66 202746 aaactactaaccactgcaagctcttgtcaaattttagtttaattggcattgcttgttttttgaaactgaaattacntgagtttcattnc _at tttgaatttatagggtttagatttctgaaagcagcatgaatatatcacctaacatcctgacaataaattccatccgttgttttttttgt ttgtttgttttttcttttcctttaagtaagctctttattcatcttatggtgcagcaattttaaaatttgaaatattttaaattgttttg aactttttgtgtaaaatatatcagatctcaacattgttggtttctttgtttttcattttgtacaactttcttgaatttagaaattacat ctttgcagttctgttaggtgctctgtaattaacctgacttatatgtgaacaattttcatgagacagtcatttttaactaatgcagtgat tctttctcactactatctgtattgtggaatgcacaaaattgtgtaggtgctgaatgctgtaaggagtttaggttgtatgaattctacaa ccctataata  67 202760 gagatactatttttgctgagcaaccagtgtgtttcaggatgatacaaagaaaaatatagaatagaaataagtgcaggcttggaatcagc _s_at tacaaatcctaaagatggggtgtgtgtggatgtgtgtgtgtgtgtgtgtacaccattgtgtgtttgtaaaatgtgtatgttcatgagta _ agggtgtgtgtgtgtgtgtattaaaattccagagtgaccgtggcacttgggtgtacaggtaattcctccagagctgtttgctggcttca ggagtggagtgagaatttcttttttatgaaaagggatataaaggcaccgagctgatgcagtatttgtaatattaagttgacctaacaag gtatttgcatgagtcacaattacaaagttttgagcggttttgtaatttgacatttaggaaagtctcctatttattctcatactttacat tcatgcttagtatactatagaggatgccagctttaatctttctg  68 202766 gctttcaattgatggactactctattttttgcaaatttgtaaactttgcttctccaaatacaagtactaggttgtccatttatggtacc _s_at tatttggtgctagtaaattttcaaactagatttataaatgcactgtaatatgtacacaacttagaaaccaaattacaagtattcagttc caatacttcattaatttcaatcaaccaaagttagttcagtagcttatctcagttatgagtataatacattacatgtaaattaagtgtgt gtatactgtaatcgtgctattttttatcattgaaacatttataaactagaataataatgcccttaatgtgagggtttgtaatggtgctt attaagaccaaagacttgttaaatgtatacaccaagtggtaatgaaatttcgtgactggcccacacgtgcatagaggtctgggaggacc aggaaacagcctcagtggccagaggatcaccagtgcatccttcatcacagcatgtgcaatatgccaagattaccctcggtcattcctgt caacaaggg  69 202768 gcgtgagtgtgtgagcgcttctgcagcctcggcctaggtcacgttggccctcaaagcgagccgttgaattggaaactgcttctagaaac __at tctggctcagcctgtctcgggctgacccttttctgatcgtctcggcccctctgattgttcccgatggtctctctccctctgtcttttct cctccgcctgtgtccatctgaccgttttcacttgtctcctttctgactgtccctgccaatgctccagctgtcgtctgactctgggttcg ttggggacatgagattttattttttgtgagtgagactgagggatcgtagatttttacaatctgtatctttgacaattctgggtgcgagt gtgagagtgtgagcagggcttgctcctgccaaccacaattcaatgaatccccgacccccctaccccatgctgtacttgtggttctcttt ttgtattttgcatctgaccccggggggctgggacagattggcaatgggccgtccc  70 202838 agaaagaggcgctgctcactgttttcctgcttcagtttttctcttatagtaccatcactataatcaacgaacttctcttctccacccag _at agatggcttttccaacacattttaattaaaggaactgagtacattaccctgatgtctaaatggaccaaagatctgagatccattgtgat tatatctgtatcaggtcagcagaagaaggaactgagcagttgaactctgagttcatcaattctaatatttggaaattatctacaatgga atcttccctctgttctctgataacctacttgcttactcaatgcctttaagccaagtcaccctgttgcctatgggaggaggtggaaggat ttggcaagctcaaccacatgctatttagttagcatcagttgtcaccaacagtctttctgcaaagggcaggagagctttgggggaaagga aaaggcttaccaggctgctatggtcaactcttcagaa  71 202888 agccctggagaagacgaaagccaacatcaagtgggtgaaggagaacaaggaggtggtgctccagtggttcacagaaaacagcaaatagt _s_at ccccagcccttgaagtcacccggccccgatgcaaggtgcccacatgtgtccatcccagcggctggtgcagggcctccattcctggagcc cgaggcaccagtgtcctcccctcaaggacaaagtctccagcccacgttctctctgcctgtgagccagtctagttcctgatgacccaggc tgcctgagcacctcccagcccctgcccctcatgccaaccccgccctaggcctggcatggcacctgtcgcccagtgccctggggctgatc tcagggaagcccagctccagggccagatgagcagaagctctcgatggacaatgaacggccttgctgggggccgccctgtaccctctttc acctttccctaaagaccctaaatctgaggaatcaacagggcagcagatctgtatatttttttc  72 202920 attatctggtcttttcctgttgtgcaaaaatgactcattgctccgaatgtcaaaaacaaatgcgacaaacaatggcacttcatcattta _at aagtaatgttgccaagagaaaaaatttcctgggagggaggtttcccacaagccaaatctcctaagcctcaaatgctagcactttttggc agttggataggaaatgagacattctttggcagccaaaataagagaggccgatggtgaaactttttgagacaccctatggccttcttgtc aaaaccttcactggagctcaagaaaagcatttctgttgtgttatttgcagtgcagatgatgtctgtgtaacaacataatggttattcac ctttttttgattttgatttttgctgtgttatcaaaaacttgaatactgtgagaagaagtgaattttcagttgacgaatcagcatcttgt tcccatggtgataac  73 202953 cttcgaccacgtgatcaccaacatgaacaacaattatgagccccgcagtggcaagttcacctgcaaggtgcccggtctctactacttca _at cctaccacgccagctctcgagggaacctgtgcgtgaacctcatgcgtggccgggagcgtgcacagaaggtggtcaccttctgtgactat gcctacaacaccttccaggtcaccaccggtggcatggtcctcaagctggagcagggggagaacgtcttcctgcaggccaccgacaagaa ctcactactgggcatggagggtgccaacagcatcttttccgggttcctgctctttccagatatggaggcctgacctgtgggctgcttca catccaccccggctccccctgccagcaacgctcactctacccccaacaccaccccttgcccagccaatggacacagtagggcttggtga atgctgctgagtgaatgagtaaataaactcttcaaggccaaggaacagtggtctaattcaactctgtgtcccagcactggcacaccaga agtgccatgctcagaaa  74 202957 tgatgagctttcctttgatccggacgacgtaatcactgacattgagatggtggacgagggctggtggcggggacgttgccatggccact _at ttggactcttccctgcaaattatgtcaagcttctggagtgactagagctcactgtctactgcaactgtgatttcccatgtccaaagtgg ctctgctccaccccctccctattcctgatgcaaatgtctaaccagatgagtttctggacagacttccctctcctgcttcattaagggct tggggcagagacagcatggggaaggaggtccccttccccaagagtcctctctatcctggatgagctcatgaacatttctcttgtgttcc tgactccttcccaatgaacacctctctgccaccccaagctctgctctcctcctctgtgagctctgggcttcccagtttgtttacccggg aaagtacgtctagattgtgtggtttgcctcattgtgctatttgcccactttccttccctgaagaaatatctgtgaaccttctttctgtt cagtccta  75 202992 gctggaatacttactcttgtcgggagattgaaccactaaaatgttagagcagaattcattatgctgtggtcacaggggtgtcttgtctg _at agaacaaatacaattcagtcttctctttggggttttagtatgtgtcaaacataggactggaagtttgcccctgttcttttttcttttga aagaacatcagttcatgcctgaggcatgagtgactgtgcatttgagatagttttccctattctgtggatacagtcccagagttttcagg gagtacacaggtagattagtttgaagcattgaccttttatttattccttatttctctttcatcaaaacaaaacagcagctgtgggagga gaaatgagagggcttaaatgaaatttaaaataagctatattatacaaatactatctctgtattgttctgaccctggtaaa  76 202994 aatgcgaaggctaagtgtcaccccctttctctgcctctggctgggccttgctaagggccaaggaaagaaagacattttttagggggcag _s_at ccagtccaaatgccaaaagaagaccagttcttgccctgattgtatgaaatttgacattttggcactttttttttattttnggccaatca gattttctatgttctaaggacatggctgctgtagaatagcacagacgtggatgataaattatccccagaagcagcatgacagaatgcct cggggagcacttggaagggaaattgcagttctgttgaaatagaggaaaatcccttggtaaagacacagcctgttaggctcgtgtgggcc tccagtatgttcaccaggggaa  77 202995 aacgatgtcacatgcgtgttcgaccccgtgcacaccatctcccacaccgtcatctcgctgcctaccttccgcgagttcacccgccctga _s_c agagatcatcttcctccgggccatcacgccaccgcatcctgccagccaggctaacatcatcttcgacatcacggaagggaacctgcggg actcttttgacatcatcaagcgttacatggacggcatgaccgtgggtgtcgtgcgccaggtgcggcccatcgtgggcccatttcatgcc gtcctgaagctggagatgaactatgtggtcgggggcgtggtttcccaccgaaatgttgtcaacgtccgcatcttcgtctctgagtactg gttctgagggctggtctgccgcacagccgcaggtgcacctccaggccaaatcattgctgccagtgactgtggtctgtacttgtttatac cctcag  78 203000 gacagacctgagaccaatctgggtagaagcaaaaagttgaaccttttaaagtgctgaacacaaatccaaattcgaatggttcaagcagc _at cgtgaaatcgctcttcataaagtgggcttaattctctagtttaagttcttttgatggaatgaattaattaatgtgtcaggtggcttatt tgtggatgccatgattgatgatgttcattttaagctcttacctatagtacaagtacatgatgctactgaatatttttccacttggaaac tgtgagctggttgcattaaaacacacatacaaacaaaatcaaaaacactgcggactttcactcaagctggtctttcttccccagtgtaa ggcaatcctgcctactaacaacaccaacaacaaaacactccatctgtgaanntgacgcagttaagggggctaggcagggcatttgtgcc aactaagaatcaccagatacccaccataagtacctatcgcagttttgaagtc  79 203001 acctcgcaacatcaacatctatacttacgatgatatggaagtgaagcaaatcaacaaacgtgcctctggccaggcttttgagctgatct _s_at tgaagccaccatctcctatctcagaagccccacgaactttagcttctccaaagaagaaagacctgtccctggaggagatccagaagaaa ctggaggctgcaggggaaagaagaaagtctcaggaggcccaggtgctgaaacaattggcagagaagagggaacacgagcgagaagtcct tcagaaggctttggaggagaacaacaacttcagcaagatggcggaggaaaagctgatcctgaaaatggaacaaattaaggaaaaccgtg aggctaatctagctgctattattgaacgtctgcaggaaaaggagaggcatgctgaggaggtgcgcaggaacaaggaactccaggttgaa ctgtctggctgaagcaagggagggtctggcacgcc  80 203058 atggcctctgtgaataatgtaactccagttacacggtgacttttaatagcatacagtgatttgatgaaaggacgtcaaacaatgtggcg _s_at atgtcgtggaaagttatctttcccgctctttgctgtggtcattgtgtcttgcagaaaggatggccctgatgcagcagcagcgccagctg taataaaaaataattcacactatcagactagcaaggcactagaactggaaaagaccacagaaaacaaagaatccaaccctttcatctta caggtgaacaaactgtgatgatgcacatgtatgtgttttgtaagctgtgagcaccgtaacaaaatgtaaatttgccattattaggaaag tgctggtggcagtgaagaagcacccaggccacttgactcccagtctggtgccctgtctacaccagacaacacaggagctgggtcagatt cccctcagctgcttaacaaagttcctcgaacagaaagtgcttacaaagctgccttctcggatact  81 203060 agctgccttctcggatactgaaaggtcgagttttctgaactgcactgattttattgcagttgaaaaacccaaagctattccaaagattt _s_at caagctgttctgagacatcttctgatggctttacttcctgagaggcaatgtttttactttatgcataattcattgttgccaaggaataa agtgaagaaacagcacctttttaatatataggtctctctggaagagacctaaatttagaaagagaaaactgtgacaattttcatattct cattcttaaaaaacactaatcttaactaacaaaagttcttttgagaataagttacacacaatggccacagcagtttgtctttaatagta tagtgcctatactcatgtaatcggttactcactactgcctttaaaaaaaaccagcatatttattgaaaacatgagacaggattatagtg ccttaaccgatatattttgtgacttaaaaaatacatttaaaactgctcttctgctctagtaccatgcttagtgcaaatgattatttcta tgtacaactgatgcttgttcttattt  82 203066 ttcagttgctaatgaggctcctccgctctggacacaacccttttatagattaatttctctgccaattaacttgtcattttcagtacata _at ttttactattccacaccaaccataattacaacaagggatttttcttatgcactcctatgcatgtgaataacatgtggtgtaattctgct tcttacagaagtattactgaaggtattatttccaatattatttggtttattatgcggatcttttttatatatgcagtcccatcccttct gtgccactcaatgccatccagacatggtttttccctccaggggccatctctccagagggcacttcggctgcctctgcttcctctcattc gaggcccggctcttgctgacagaataggttccgttctgggcggtggttctcgagcctgccattcaaaaccaaagcaaattggagcattt ctcacaacatggtattgaagttcctttttgttctcaaaagttgtgaccgtgttaaattgtactcccttagtcctgtaaggtatgttaag tgaatcgcagttacgctgtactttta  83 203131 agaaaatttgccaatctttcctactttctatttttatgatgacaatcaaagccggcctgagaaacactatttgtgactttttaangatt _at agtgatgtccttaaaatgtggtctgccaatctgtacaaaatggtcctatttttgtgaagagggacataagataaaatgatgttatacat caatatgtatatatgtatttctatatagacttggagaatactgccaaaacatttatgacaagctgtatcactgccttcgtttatatttt tttaactgtgataatccccacaggcacattaactgttgcacttttgaatgtccaaaatttatattttagaaataataaaaagaaagata cttacatgttcccaaaacaatggtgtggtgaatgtgtgagaaaaactaacttgatagggtctaccaatacaaaatgtattacgaatgcc cctgttcatgtt  84 203240 ccaggactacagaataccatcccctggtaccgtgtagttgccgaagtccagatctgccatggcaaaacggaggctgtgggccaggtcca _at catcttcttccaggatgggatggtgacgttgactccaaacaagggtgtgtgggtgaatggtctccgagtggatctcccagctgagaagt tagcatctgtgtccgtgagtcgtacacctgatggctccctgctagtccgccagaaggcaggggtccaggtgtggcttggagccaatggg aaggtggctgtgattgtcagcaatgaccatgctgggaaactgtgtggggcctgtggaaactttgacggggaccagaccaatgattggca tgactcccaggagaagccagcgatggagaaatggagagcgcaggacttctccccatgttatggctgatcagtcatccaccaggaacgaa gatttcctgaagaagacctggtccctctggaggttgcggtggctgaaggatgcatcatgtgctcctaccctgctctaccgcttttctgg gtcacagag  85 203296 aaagacaagcattgggtcagacccataaaccacctcccaaaggctgtcatttcattgcactggaattttgctttatcagaagcaaggaa _s_at gtaagggagtcattgccttgggcctgggaatctaagtgggagacaatattaatttggatccgattaattggagattactaactgtggac aaaagtttatctttgcacaatcaataaaaatggcatttttttagtaaattaagagcataaacaatattgctagaggtggcatgtttagt ctaccaaaaacaatacttttcaggcactttagaaatatccttttagaagcagcgagtgcatgggctaattatcatcaatctttatgtat ttgttaaagaaacatctacaggatctttattggtgaccttttgta  86 203305 gtccttcacatcaccattttgagacctcagcttggcactcaggtgctgaagggtaatatggactcagccttgcaaatagccagtgctag _at ttctgacccaaccacagaggatgctgacatcatttgtattatgttccaaggctactacagagaaggctgcctgctatgtatttgcaagg ctgatttatggtcagaatttccctctgatatgtctagggtgtgatttaggtcagtagactgtgattcttagcaaaaaatgaacagtgat aagtatactgggggcaaaatcagaatggaatgctctggtctatataaccacatttctgagcctttgagactgttcctgagccttcagca ctaacctatgagggtgagctggtcccctctatatatacatcatacttaactttactaagtaatctcacagcatttgccaagtctcccaa tatccaatt  87 203343 atgtgtcactgattttttagctcaaaatcatcactgttaatttccagtcaccccaaatatggttaaaagatttttttttttaatcatga _at agagaaaattagtagcatttctttctctccccattatttattggttttcctcactaatctttttttttttagtccaaaagccaaaaata tttatcttggttttacattttaatttccattcttaattgtaatttttttctttaaataaggaaaccaatataatctcatgtataaaaac ttaaatattttacaagttacatatagcatcattctaaaataagaattttttttgttttctgtctgcttttttcttatgtctcttgttga gttttatattttcagtggttatttttgcttgtgttagatcattattaaaatatatccaatgtccctttgatacttgtgctctgctgaga atgtacagtttgcattaaacatcccaggtctcatccttcaggaattt  88 203382 gaagcgcctggcagtgtaccaggccggggcccgcgagggcgccgagcgcgggttctcagcgccatccgcgagcgcctggggcccctggt s_at ggaacagggccgcgtgcgggccgccactgtgggctccctggccggccagccgctacaggagcgggcccaggcctggggcgagcggctgc gcgcgcggatggaggagatgggcagccggacccgcgaccgcctggacgaggtgaaggagcaggtggcggaggtgcgcgccaagctggag gagcaggcccagcagatacgcctgcaggccgaggccttccaggcccgcctcaagagctggttcgagcccctggtggaagacatgcagcg ccagtgggccgggctggtggagaaggtgcaggctgccgtgggcaccagcgccgcccctgtgcccagcgacaatcactgaacgccgaagc c  89 203474 actgtgatataggtactctgatttaaaactttggacatcctgtgatctgattaaagttggggggtgggaaatttagctgactagggaca _at aacatgtaaacctattttcctatgaaaaaagttttaaatgtcccacttgaataacgtaattcttcatagtttttttaatctatggataa atggaaacctaattatttgtaatgaattatttagacagttctaagccctgtcttctgggagttatcaattttaaagagaacttttgtgc aattcaaatgaagtttttataagtaattgaaaatgacaacacaataacactttctgtataaaagtatatattttatgtgatttattcct actaaatgaaagtgcactactgcctcatgtaaagactcttgcacgcagagcctttaagtgactaaggaacaacatagatagtgagcata gtccccacctccacccctcacaatttatttgaatacttcaattgtgcctctcaa  90 203477 ttcagacagttatatcctccttttaaaccattgttgttgagtgtaagatgtccttcatgttttcttataaagtcagtgtttagaaatgt _at taccctttctaagttatatacagatcaaatgcttttttctttcacgtacatccatcatttgcaactgctgttcgtacacagaaacagga ctgctcaaatgatcctatttgtattttctgatgctatcagactctaatgtttttttccctaaaatattattgccatcatgctttaggaa tttttatatttttacacaatcatattttagtatggtgtctgtttatgtaactctgacttgctggaaaagttgaaactccaaataatctg aaactagaaaagaaatagcacataattactaccttccccttggcggctctcctcccccaacccccaccccacaattttatgacttcca  91 203638 caacgtctaactggacttcccaagataaatggtaccagcgtcctcttaaaagatgccttaatccattccttgaggacagaccttagttg _s_at aaatgatagcagaatgtgcttctctctggcagctggccttctgcttctgagttgcacattaatcagattagcctgattctcttcagtga attttgataatggcttccagactctttgcgttggagacgcctgttaggatcttcaagtcccatcatagaaaattgaaacacagagttgt tctgctgatagttttggggatacgtccatctttttaagggattgctttcatctaattctggcaggacctcaccaaaagatccagcctca tacctacatcagacaaaatatcgccgttgttccttctgtactaaagtattgtgttttgctttggaaacacccactcact  92 203645 gccagacgctggggccatagtgagtgtgggcacaaggaagacgctgcagtgaattgcacagatatttcagtgcagaaaaccccacaaaa _s_at agccacaacaggtcgctcatcccgtcagtcatcctttattgcagtcgggatccttggggttgttctgttggccattttcgtcgcattat tcttcttgactaaaaagcgaagacagagacagcggcttgcagtttcctcaagaggagagaacttagtccaccaaattcaataccgggag atgaattcttgcctgaatgcagatgatctggacctaatgaattcctcaggaggccattctgagccacactgaaaaggaaaatgggaatt tataacccagtgagttcagcctttaagataccttgatgaagacctggactattgaatggagcagaaattcacctctctcactgactatt acagttgcatttttatggagttcttcttctcctaggattcc  93 203680 ttttcattgttcattgatatgctcagtatgctgccacataagatgaatttaattatattcaaccaaagcaatatactcttacatgattt _at ctaggccccatgacccagtgtctagagacattaattctaaccagttgtttgcttttaaatgagtgatttcattttgggaaacaggtttc aaatgaatatatatacatgggtaaaattactctgtgctagtgtagtcttactagagaatgtttatggtcccacttgtatatgaaaatgt ggttagaatgttaattggataatgtatatataagaagttaaagtatgtaaagtataacttcagccacatttttagaacactgtttaaca tttttgcaaaaccttcttgtaggaaaagagagctctctacatgaagatgacttgttttatatttcagattttattaaaagccatgtctg ttaaacaagaaaaaacacaaaagaactccagattcctggttcatcattctgtattcttactcacttatcaagtt  94 203729 atcctcattcttatactgatttcgtggccactttggacaagtcctggtggactctccctgggaaagagtccctgaatctctggtacgac _at tgcacgtggaacaacgacaccaaaacatgggcctgcagtaatgtcagcgagaatggctggctgaaggcggtgcaggtcctcatggtgct ctccctcattctctgctgtctctccttcatcctgttcatgttccagctctacaccatgcgacgaggaggtctcttctatgccaccggcc tctgccagctttgcaccagcgtggcggtgtttactggcgccttgatctatgccattcacgccgaggagatcctggagaagcacccgcga gggggcagcttcggatactgcttcgccctggcctgggtggccttccccctcgccctggtcagcggcatcatctacatccacctacggaa gcgggagtgagcgccccgc  95 203748 caagtatcggggctctgctatcaaggtgcaaagtccttcgtggatgcaacctcaaccatatattctacagcaccctggtgccgtgttaa _x_at ctccctcaatggagcacaccatgtcactacagcccgcatcaatgatcagccctctggcccagcagatgagtcatctgtcactaggcagc accggaacatacatgcctgcaacgtcagctatgcaaggagcctacttgccacagtatgcacatatgcagacgacagcggttcctgttga ggaggcaagtggtcaacagcaggtggctgtcgagacgtctaatgaccattctccatatacctttcaacctaataagtaactgtgagatg tacagaaaggtgttcttacatgaagaagggtgtgaaggctgaacaatcatggatttttctgatcaattgtgctttaggaaattattgaa cagttttgcacaggttcttgaaaacgttatttataatgaaatcaactaaaactatttttgctataagttctataaggtgcataaaaccc ttaattcatctagtagctgttccccc  96 203766 caccttgggtctgtgtcacttgtaggtttctctgcctccaggttgcctcaacagcaggaggcacagcagtttcaccatctttgaggtga _s_a gggtggggtgccccagctaggaagcaagatcgctgtgctaggtctgaccaaaaccagagggcagtctagtcctgggggtaaagccctca gatcccagggtacactcttctccattccctccacccacttgcctgtcaccccagtcacctaagcaatcactgggcccagaggagaggag acagacacacactggctcctggacctaaagggtatgagctggagctaaggccagctagagcttccactgtcagccctcactgtcagccc cactgcacccccctgtgcctgctgggcactgggcactagctagatgctttaggttgcttcagctgatccttcaactctgtgaggtg  97 203881 tatgtgacgctggaccttttctttacccaaggatttttaaaactcagatttaaaacaaggggttactttacatcctactaagaagttta _s_at agtaagtaagtttcattctaaaatcagaggtaaatagagtgcataaataattttgttttaatctttttgtttttcttttagacacatta gctctggagtgagtctgtcataatatttgaacaaaaattgagagctttattgctgcattttaagcataattaatttggacattatttcg tgttgtgttctttataaccaccgagtattaaactgtaaatcataatgtaactgaagcataaacatcacatggcatgttgtcattgtttt caggtactgagttcttacttgagtatcataatatattgtgttttaacaccaacactgtaacatttacgaattatttttttaaacttcag ttttactgcattttcacaacatatcagacttcaccaa  98 203908 tgtgtaatacgccaaccagtcaagttgtgttttggccagagatttagatatgtccaatttcctggctcatttcattgtgctctatgggt _at acgtataaaaagcaagaattctgtttcctaggcaaacattgcaactcagggctaaagtcatccagtgaaacttttagagccagaagtaa ctttgtcccagtcctacaatgtgaaaagagtgaatagttgcctctttttagccattttcatggctggtacatattcgtacgcattactt ttcagaatcaatacgcactttcagatattcttatttttattctcttaagtctttattaactttggagagagaaatgatgcatctttttt attttaaatgaagtagatcaacatggtggaacaaaatgataaagaacagaaaacatttcaatatattactaataactttttccaatata aatcctaaaattcctataacatagtattttacagttttatgaagctttctattgtgacttttatg  99 203913 aacactcacatacaagttcatactttaaaagaggaaagctacttaacaatgacaaatatttcacaataataatttttacttatatacca _s_at tctttcaactgaacatttcagttcttccaagagcttcttagagtagtatattttgggggcagtcaaggaataaactacagtgtaaacat atcccagatgaaaactgctgtatggaaaaatgacagaaagtaactgattgacactgttgattcacagttcangcctcctatctgggaaa gacatttctttcctctgctcactttaagaacttttaccgactccaaaaatctcaggaattaaacttttaacagttacagcaataaagaa tagttagtactccaaaaatattatatttaagatgctcaacaagaaaaaaatgcaaatgtaatatttttttcaaattacttctttattga cttgtcca 100 203914 gatttccaaatcagtcgttttctcaaaaaaatatcgtataagtgactcatcctgtctgctaactccagacctcccagcttgaagccaaa _x_at tctttccatgtgagattgatatggatttcctagaagtactggaatgttgtcatatcttgccctattttaattctgctatagaaaacaat tgccttcacttttaaggagtaatttgaatattaataactctggtctagattttcatataatgtattaaagacaaagtagtgaacatcaa tgaacatctgatagagataaactgtaatcaggcataagcttgtttgtatgttctggcagtgactaatcagtaaatgatgtcggtttgcc cagtatcacttatcttctgtatttttcctctgtcgtgtaaatagtataaccttttcatttatggacaattttttggactagtagccttc aatatacattctgctt 101 203951 acgcacacaactactacaattccgcctaggtccacaaggccttcactgttttccccccaagggaggctgctgctgctcttggctggagc _at cagccagggccagccgaccccctctccctgcatggcatcctccagcccctgtagaactcaacctctacagggttagagtttggagagag cagactggcggggggcccattggggggaaggggaccctccgctctgtagtgctacagggtccaacatagaacagggtgtccccaacagc gcccaaaggacgcactgagcaacgctattccagctgtccccccactccctcacaagtgggtacccccaggaccagaagctcccccagca aagcccccagagcccaggctcggcctgcccccaccccattcccgcagtgggagcaaactgcatgcccagagacccagcggacacacgcg gtttggtttgcagcgactggcatac 102 203963 ccaaatttcatttcagccacttctgcaggatccctactgccaacctggaatggagacttttatctacttctctctctctgaagatgtca _at aatcgtggtttagatcaaatatatttcaagctataaaagcaggaggttatctgtgcagggggctggcatcatgtatttaggggcaagta ataatggaatgctactaagatactccatattcttccccgaatcacacagacagtttctgacaggcgcaactcctccattttcctcccgc aggtgagaaccctgtggagatgagtcagtgccatgactgagaaggaaccgacccctagttgagagcaccttgcagttccccgagaactt tctgattcacagtctcattttgacagcatgaaatgtatcttgaagcatagctttttaaatatctttttccttctactcctccctctgac tctaagaattctctcttctggaatcgcttg 103 203980 gtgtgatgcttttgtaggtacctggaaacttgtctccagtgaaaactttgatgattatatgaaagaagtaggagtgggctttgccacca _at ggaaagtggctggcatggccaaacctaacatgatcatcagtgtgaatggggatgtgatcaccattaaatctgaaagtacctttaaaaat actgagatttccttcatactgggccaggaatttgacgaagtcactgcagatgacaggaaagtcaagagcaccataaccttagatggggg tgtcctggtacatgtgcagaaatgggatggaaaatcaaccaccataaagagaaaacgagaggatgataaactggtggtggaatgcgtca tgaaaggcgtcacttccacgagagtttatgagagagcataagccaagggacgttgacctggactgaagttcgcattgaactctacaaca ttctgtgggatatattgttcaaaaagatattgttgttttccctgatttagcaagca 104 204018 ggtccccacagactcagagagaacccaccatggtgctgtctcctgccgacaagaccaacgtcaaggccgcctggggtaaggtcggcgcg _x_at cacgctggcgagtatggtgcggaggccctggagaggatgttcctgtccttccccaccaccaagacctacttcccgcacttcgacctgag ccacggctctgcccaggttaagggccacggcaagaaggtggccgacgccctgaccaacgccgtggcgcacgtggacgacatgcccaacg cgctgtccgccctgagcgacctgcacgcgcacaagcttcgggtggacccggtcaacttcaagctcctaagccactgcctgctggtgacc ctggccgcccacctccccgccgagttcacccctgcggtgcacgcctccctggacaagttcctggcttctgtgagcaccgtgctgacctc caaataccgttaagctg 105 204034 gcccaggctgacttacacattgaggatggagactccatccgcttcgggcgcttcgcgttggagaccagggccagccctggccacacccc _at aggctgtgtcaccttcgtcctgaatgaccacagcatggccttcactggagatgccctgttgatccgtgggtgtgggcggacagacttcc agcaaggctgtgccaagaccttgtaccactcggtccatgaaaagatcttcacacttccaggagactgtctgatctaccctgctcacgat taccatgggttcacagtgtccaccgtggaggaggagaggactctgaaccctcggctcaccctcagctgtgaggagtttgtcaaaatcat gggcaacctgaacttgcctaaacctcagcagatagactttgctgttccagccaacatgcgctgtggggtgcagacacccactgcctgat ctcacttctgtcagatgacccatccactattaatgcactaggtgggaggagagggcggcaatgacactgcacct 106 204036 aattgccacattttcttatggcattaaaaattttacaaaaacataattttaatggctatattatattccatttaatggatgcaactcan _at gtttatttaaccattcccatngttgttaactatttaggttgtttctaattttcattattataaagttgcagaaatttggtgtacataaa actgtctccatataattgattattaggatatattcccatgaaggattcntttttttaaaaaaatgtgaaatntcatcttgtacttacac ctttcatgnaaagggatttcctgcttagtactgcatgggtggcagttgtgaggaaaagccagtcaaatgacctttttacaaaagaaatg cagtggtcacttcagttgagagtgactttttaatacaacaagatcaactagaagaattcaactgtctcaagaatcaaggtaccccaata tatctcgcaattccaaactttgtttgagggactcgttatccagctcttggtagccacacctgcaatgta 107 204069 aagccttacagttatcctgcaagggacaggaaggtctgatttgcaggatttttagagcattaaaataactatcaggcagaagaatcttt _at cttctcgcctaggatttcagccatgccccgctctctctctttctctctcttttcctctctctccctctttctagcctggggcttgaatt tgcatgtctaattcatttactcaccatatttgaattggcctgaacagatgtaaatcgggaaggatgggaaaaactgcagtcatcaacaa tgattaatcagctgttgcaggcagtgtcttaaggagactggtaggaggaggcatggaaaccaaaaggccgtgtgtttagaagcctaatt gtcacatcaagcatcattgtccccatgcaacaaccaccaccttatacatcacttcctgttttaagcagctctaaaacatagactgaaga tttatttttaatatgttgactttatttctgagcaaagcatcggtcatgtgtgtattttttcatagtcccaccttggagcatttatg 108 204083 gaaggcggctgatgagagcgagagaggaatgaaggtcatcgaaaaccgggccatgaaggatgaggagaagatggaactgcaggagatgc _s_at agctgaaggaggccaagcacatcgctgaggattcagaccgcaaatatgaagaggtggccaggaagctggtgatcctggaaggagagctg gagcgctcggaggagagggctgaggtggccgagagccgagccagacagctggaggaggaacttcgaaccatggaccaggccctcaagtc cctgatggcctcagaggaggagtattccaccaaagaagataaatatgaagaggagatcaaactgttggaggagaagctgaaggaggctg agacccgagcagagtttgccgagaggtctgtggcaaagttggagaaaaccatcgatgac 109 204122 catggggggacttgaaccctgcagcaggctcctgctcctgcctctcctgctggctgtaagtggtctccgtcctgtccaggcccaggccc _at agagcgattgcagttgctctacggtgagcccgggcgtgctggcagggatcgtgatgggagacctggtgctgacagtgctcattgccctg gccgtgtacttcctgggccggctggtccctcgggggcgaggggctgcggaggcagcgacccggaaacagcgtatcactgagaccgagtc gccttatcaggagctccagggtcagaggtcggatgtctacagcgacctcaacacacagaggccgtattacaaatgagcccgaatcatga cagtcagcaa 110 204130 tccccagcagtggctcggtgagccatgtgcacctatggcccagccactgcagcacaggaggctccgtgagccttggttcctccccgaaa _at acccccagcattacgatcccccaagtgtcctggaccctggcctaaagaatcccacccccacttcatgcccactgccgatgcccaatcca ggcccggtgaggccaaggtttcccagtgagcctctgcgcctctccactgtttcatgagcccaaacaccctcctggcacaacgctctacc ctgcagcttggagaactccgctggatgggagtctcatgcaagacttcactgcagcctttcacaggactctgcagatagtgcctctgcaa actaaggagtgactaggtgggttggggaccccctcaggattgatctcggcaccagtgcctcagtgctgcaattgagggctaaatcccaa gtgtctcttgactggctcaagaattagggcccca 111 204135 cagaccggcagtcatcatggcagtttcagcgttcaaacagcaatagctcaagtgtgataactactgaggataataaaatccacattcac _at ttaggaagtccttacatgcaagctgtagccagcccttcagcaccactgcaggataaccgaactcaaggcttaattaacggggcactaaa caaaacaaccaataaagtcaccagcagtattactatcacaccaacagccacacctcttcctcgacaatcacaaattacagtaagtaata tatataactgaccacgctcaccctcatccagtccatactgatatttttgcaaggaactcaatcctatttaatcatccctccatatcccc caagactgactgaactcgtactagggaaggtttgtgcatgaactatacaagagtatctgaaactaactgttgcctgcatagtcatatcg agtgtgcacttactgtatatcttttcat 112 204326 gcgtgttttcctcttgatcgggaactcctgcttctccttgcctcgaaatggaccccaactgctcctgctcgcctgttggctcctgtgcc _x_at tgtgccggctcctgcaaatgcaaagagtgcaaatgcacctcctgcaagaagagctgctgctcctgctgccctgtgggctgtgcnaagtg tgcccagggctgcatctgcaaagggacgtcagacaagtgcagctgctgtgcctgatgccaggacagctgtgctctcagatgtaaataga gcaacctatataaacctggattttttttttttttttttgtacaaccctgacccgtttgctacatctttttttctat 113 204388 ttccacatcagtaactgccctggggtttgtgctgtacaaatacaagctcctgccacggtcttgaagttctgttcttatgctctctgctc _s_at actggttttcaataccaccaagaggaaaatattgacaagtttaaaggctgtgtcattgggccatgtttaagtgtactggatttaactac ctttggcttaattccaatcattgttaaagtaaaaacaattcaaagaatcacctaattaatttcagtaagatcaagctccatcttatttg tcagtgtagatcaactcatgttaattgatagaataaagccttgtgatcact 114 204389 ctttgcgggcacagagactgccacaaagtggagcggctacatggaaggggcagttgaggctggagaacgagcagctagggaggtcttaa _at atggtctcgggaaggtgaccgagaaagacatctgggtacaagaacctgaatcaaaggacgttccagcggtagaaatcacccacaccttc tgggaaaggaacctgccctctgtttctggcctgctgaagatcattggattttccacatcagtaactgccctggggtttgtgctgtacaa atacaagctcctgccacggtcttgaagttctgttcttatgctctctgctcactggttttcaataccaccaagaggaaaatattgacaag tttaaaggctgtgtcattgggccatgtttaagtgtactggatttaactacctttg 115 204438 taattgcttgttttctagcctggcaagatattttcataaaagagggataacaatgctgattactaccttttaaaatattttagataaat _at gcacagcaccacagcaccacatctaagcattagtgatgggtagctgatgtcagcttcatgtggattttaagcactctagaaacaatgaa gcttcttggcatattttaaggagctcccaaaatgtgttacctattaaattgtaactcagcaagtagaagaccatttgaaaagtcaggta caaatttcctcaagtggcataaaaatgtagtcagttttctcttttaccagtttttatttccactccaattatttagaactttatttgta catgtgcagaagaataaggcagctgagaatcttgtttcccccaagagagttttacaggctgagtgttgcaaatgtgttctttgtcctgt tatatgtat 116 204457 gcactgccatgtatgaaagtctctttatgatgtttgtttttttgtcatttttgttctttacatcaagaaattttatgtttaaatatgcg _s_at gagaatgtatattgcctctgctcctatcagggttgctaaaccctggtacatcgtatataaaatgtattaaaactggggtttgttaccag ttgctgtactttgtatatagaatttttataaattgtatgcttcagaaataatttatttttaaaaagaaattaaaagattaaactcacat ccatattacacctttcccccctgaaatgtatagaatccatttgtcatcaggaatcaaaacccacagtccattgtgaagtgtgctatatt tagaacagtcttaaaatgtacagtgtattttatagaattgaagttaacattcttattttcaagagaatttatggacgttgtagaaatgt acaaatgcatttccaaactgccttaaacgttgtatt 117 204508 gggactgtctgtcaaaagactctgtatatcttttgtggatgagttttgtgagagaacagagagaccattgtacctggcacaagggctct _s_at tcatgaaaagggagacttactgggaggtgcaagacagtggcatttctcctctcctcttgctgctcagcacagccctggattgcagcccc gaggctgagaccagacaaagcccgggaggcagaaagatgctccaagaaccaacactatcaatgtctttgcaaatcctcacaggattcct gtgggtccagctttggaactgggaaacctttcttcggatccgcactcattccactgatgccagctgcccctgaaggatgccagtactgt ggtgtgtgagtctcagcagccgcccacacgctcctaactctgctgcatggcagatgcctaggtgga 118 204532 attaatcagccccagagtgctttaaaaaattctcttaaataaaaataatagactcgctagtcagtaaagatatttgaatatgtatcgtg _x_at ccccctccggtgtctttgatcaggatgacatgtgccatttttcagaggacgtgcagacaggctggcattctagattacttttcttactc tgaaacatggcctgtttgggagtgcgggattcaaaggtggtcccaccgctgcccctactgcaaatggcagttttaatcttatcttttgg cttctgcagatggttgcaattgatccttaaccaataatggtcagtcctcatctctgtcctgcttcataggtgccaccttgtgtgtttaa a 119 204570  ctacgcgtgtccttgggcggagaagggaggtgactccggcggaagaggacaaggcagaatgcaggcccttcgggtgtcccaggcgctga _at tccgctccttcagctccaccgcccggaaccgctttcagaaccgagtgcgcgagaaacagaagctcttccaggaggacaatgacatcccg ttgtacctgaagggcggcatcgttgacaacatcctgtaccgagtgacaatgacgctgtgtctgggcggcactgtctacagcttgtactc ccttggctgggcctccttccccaggaattaagaccaagaagcctggggggcctgagagact 120 204607 tggtgacacaaacagccttttcccaggtacttggtacctggagcgagtggacgagcagcatcgccgaaagtatgcccggcgtcccgtct _at aaaggtgttctgcagatccatggaaagcttcctgggaaacgtatgctagcagagcttctccccgtgaatcatatttttaagatcccact cttagctggtaaatgaatttgaatcgacatagtagccccataagcatcagccctgtagagtgaggagccatctctagcgggcccttcat tcctctccatgctgcaatcactgtcctgggcttatggtgcctatggactaggggtcctttgtgaaagagcaagatggagcaatggagag aagacctcttcctgaatcactggactccagaaatgtgcatgcagatcagctgttgccttca 121 204673 ttgatgccagcatttgcatcccgggctccatcacattcatgcccaatggatgctgcaagacctgcaccgttctcgcaatgagaccaggg _at tgccctgctccaccgtccccgtcaccacggaggtttcgtacgccggctgcaccaagaccgtcctcatgaatcattgctccgggtcctgc gggacatttgtcatgtactcggccaaggcccaggccctggaccacagctgctcctgctgcaaagaggagaaaaccagccagcgtgaggt ggtcctgagctgccccaatggcggctcgctgacacacacctacacccacatcgagagctgccagtgccaggacaccgtctgcgggctcc ccaccggcacctcccgccgggcccggcgctcccctaggcatctggggagcgggtgagcggggtgggcacagcccccttcactgccctcg acagctttacctcccccggaccctctgagcctcctaagctcggcttcctctcttcagatatttattgtctgagtctttgttcagtcctt g 122 204688 cttgcttatatcatgtgctgccgacgggaaggcgtggaaaagagaaacatgcaaacaccagacatccaactggtccatcacagtgctat _at tcagaaatctaccaaggagcttcgagacatgtccaagaatagagagatagcatggcccctgtcaacgcttcctgtgttccaccctgtga ctggggaaatcatacctcctttacacacagacaactatgatagcacaaacatgccattgatgcaaacgcagcagaacttgccacatcag actcagattccccaacagcagactacaggtaaatggtatccctgaagaaagaaaactgactgaagcaatgaatttataatcagacaata tagcagttacatcacatttcttttctcttccaataatgcatgagcttttctggcatatgtt 123 204697 cctcccgggaggacagccttgaggcgggcctgcccctccaggtccgaggctaccccgaggagaagaaagaggaggagggcagcgcaaac _s_at cgcagaccagaggaccaggagctggagagcctgtcggccattgaagcagagctggagaaagtggcccaccagctgcaggcactacggcg gggctgagacaccggctggcagggctggccccagggcaccctgtggccctggctctgctgtccccttggcaggtcctggccagatggcc cggacgctgcttccggtagggaggcagcctccagcctgcccaagcccaggccaccctatcgccccctacgcgccttgtctcctactcct gactcctacctgccctggaacatcctttgcagggcagccccacaactttaaacattgacgattccttctctgaacacaggcagctttct agaagtttcccttcctccatcctatccactgggcacaactgcaataacttctgaccttttggtgaaagctgagaactcctgactgtaac atattctg 124 204719 gcaggccatactggttccattgttctgtataatactgaataaataaatttacttttacatgatcgtataagtttctagataagataaac _at aaattctgtttaaatttttttaataaaaatcttaaaacactttttctaacctagactgagaaattcatgtttacttttctaggtgtatg atactttgtaaagttgatactttcctaagaatttaacatgtcatatttttgaaatagatttaagtgtgcttcttattgctaaaaatact aaatgtcatgggtcatagtatctgatatcaatatcgttgataacatatccacaggtaacaccatgatgtaggcataaatggaaaacaaa aaccctactatttcaaatatattgtacttttttatttctgtaagccaactgtgtgccattttcactggacttttaaatctagactttag tgatgtctacattgtaaatgatcttttgtggatatttgtcacttggtttcagaaagttcacaaatgtagcaacagctcacatgactgag t 125 204745 tcccttctcgcttgggaactctagtctcgcctcgggttgcaatggaccccaactgctcctgtgccgctggtgtctcctgcacctgcgcc _x_at agctcctgcaagtgcaaagagtgcaaatgcacctcctgcaagaagagctgctgctcctgctgccctgtgggctgtgccaagtgtgccca aggctgcatctgcaaaggggcatcggagaagtgcagctgctgcgcctgatgtcgggacagccctgctcccaagtacaaatagagtgacc cgtaaaatctaggattttttgttttttgctacaatcttgacccct 126 204818 aaaggctggcatcttatggctcatcaaaggcggctgtgaccatgttctcatcagttatgagactggagctttccaagtggggaattaaa _at gttgcttccatccaacctggaggcttcctaacaaatatcgcaggcaccagtgacaagtgggaaaagctggagaaggacattctggacca cctccccgctgaggtacaggaagactacggccaggactacatcttagcacagcggaatttcctcctattgatcaactcgttagccagca aggacttctctccggtgctgcgggacatccagcatgctatcttggcgaagagcccttttgcctattacacgccagggaaaggcgcttac ttgtggatctgccttgctcactatttgcctattggca 127 204834 ggtgtcgaactatatgccttgtatgatcagttttatgtggctaatgagtttctcaaatatcgtttacacgttggtaactataatggcac _at agctggagatgcattacgtttcaacaaacattacaaccacgatctgaagtttttcaccactccagataaagacaatgatcgatatcctt ctgggaactgtgggctgtactacagttcaggctggtggtttgatgcatgtctttctgcaaacttaaatggcaaatattatcaccaaaaa tacagaggtgtccgtaatgggattttctggggtacctggcctggtgtaagtgaggcacaccctggtggctacaagtcctccttcaaaga ggctaagatgatgatcagacccaagcactttaagccataaatcactctgttcattcctccaggtattcgttatctaatagggcaattaa ttccttcagcacttt 128 204894 ccaggaggggctgtccaatcacattcaggcatgcgaatgagctgggccctgggtgaggtgggggtctggcctagtggggaggggcctgg _s_at cctgggtggggcagggcctggcctggtccaggcttgggctccattcccatcactgctgtccctcctgaggtctggattggggatgggga caaagaaatagcaagagatgagaaacaacagaaacttttttctctaaaggactggttaaatcaattctgatacagccttacaatacaat agtatgcagctaaaaaataattgtatgtctttatatactaatatgtaataatcttcaggtgaaaaaggcaagccacagaaatgtgtata gcgcacttcccatttgtgtttcagaaaggagtagaatataaacacataattgcttatgtatgcctattcagaataaatgggtaacactg attacttttgggaggggaaccagtaggttgaggacaggagagggaagggtcttaacacttacacccttttgtacattttg 129 204895 aggagcccaggaacgacgtggtcttccagcccatttccggggaagacgtgcgcgatgtgacagccctgaacgtgagcacgctgaaggct _x_at tacttcagatgcgatggctacaagggctacgacctggtctacagcccccagagcggcttcacctgcgtgtccccgtgcagtaggggcta ctgtgaccatggaggccagtgccagcacctgcccagtgggccccgctgcagctgtgtgtccttctccatctacacggcctggggcgagc actgtgagcacctgagcatgaaactcgacgcgttcttcggcatcttctttggggccctgggcggcctcttgctgctgggggtcgggacg ttcgtggtcctgcgcttctggggttgctccggggccaggttctcctatttcctgaactcagctgaggccttgccttgaaggggcagctg tggcctaggctacctcaagactcacctcatccttaccgcacatttaaggcgccattgcttttgggagact 130 204897 agcagcttattgtttctctgaaagtgtgtgtagttttactttcctaaggaattaccaagaatatcctttaaaatttaaaaggatggcaa _at gttgcatcagaaagctttattttgagatgtaaaaagattcccaaacgtggttacattagccattcatgtatgtcagaagtgcagaattg gggcacttaatggtcaccttgtaacagttttgtgtaactcccagtgatgctgtacacatatttgaagggtctttctcaaagaaatatta agcatgttttgttgctcagtgattgtgaattgcttggttgtaattaaattctgagcctgatattgatatg 131 204931 gagaacgggtacattcacccggtcaacctgacgtggccctttatggtggccgggaaacccgagagtgacctgaaagaagtggtgaccgc _at gagccgcttatgtggaaccaccgcgtcctgaccttggaggtgcgagtctgggaaaggcgcgctcccggggggagcgggccccgggaagg cgacccctgccctcagtgctctctgtctctgcttccccctcgcaatgctcctctctctgtcccaccccgcgagaacactttacaacgac gaggagattcgtttccaaaccagaggagatcaattgtacttacaaagattcccatctatttaactttattaacttctaccgtgaatgac tctgcaagccttgctggtcca 132 204938 ttctctcgaccacttaaaacttcagacttcctgtcctgctggtatcatggagaaagtccaatacctcactcgctcagctataagaagag _s_at cctcaaccattgaaatgcctcaacaagcacgtcaaaagctacagaatctatttatcaatttctgtctcatcttaatatgtctcttgctg atctgtatcatcgtgatgcttctctgaagttctgctacaacctctagatctgcagcttgccacatcagcttaaa 133 204939 tggcccatctattacatctacagctgacccttgaacatgggggttaggggagctgacaattcgtgggtccgcaaaatcttaactaccta _s_at atagcctactattgaccataaaccttactgataacataaacagtaaattaacacatattttgcgtgttatatgtattatacactatatt cctacaataaagt 134 204940 aaatctgttctaagacatatgatcaacagatgagaactggtggttaatatgtgacagtgagattagtcatatcactaatatactaacaa _at cagaatctaatcttcatttaaggcactgtagtgaattatctgagctagagttacctagcttaccatactatatctttggaatcatgaaa ccttaagacttcagaatgattttgcaggttgtcttccattccagcctaacatccaatgcaggcaaggaaaataaaagatttccagtgac agaaaaatatattatctcaagtattttttaaaaatatatgaattctctctccaaatattaactaattattagattatattttgaaatga acttgttggcccatc 135 204955 ggacaaagagcgctatgtctccctggtgatgcctgtggccctgttcaacctgattgacacttttcccttgagaaaagaagagatggtcc _at tacaagccgaaatgagccagacctgtaacacctgacatgatggttcctctcttggcaattcctcttcattgtctacatagtgacatgca cacgggaaagccttaaaaatatccttgatgtacagattttatttgtaattttaaaagtctattttattatgagctttctttgcacttaa aaattagcatgctgctttttgtacttggaagtgtttcaaaaaattatatgaccatatttactctttctaacctttctttactccatcat ggctggttgatttgtagagaaattagaacccataaccatacacaggctatcaacatgttattcaatgtgacacctaactcttttc 136 205097 tactcatgcctttttgtttaggataaataggtaagcacaaagagctcttcaaaatcagaaaaaacaataggagtccttccttgtctttt _at ctgtgatctctgtccttgtttctgagactttctctaccattaagctctattttagctttcagttattctagtttgtttcccatggaatc tgtcctaaactggtgtttttgtcagtgacagtcttgccagtcagcaatttctaacagcattttaaatgagtttgatgtacagtaaatat tgatgacaatgacagcttttaactcttcaagtcacctaaagctattatgcaggaggatttagaagtcacattcataaaacccaagngct atgggtgtattattcatgatagctggcccacaggtcatgaattgag 137 205112 agaagctcaccaagtcaactaaacagccccgaggacttacatcaccttctcagctcttgacctcagaaagtatccaaaccaaggaggag _at aaacctgtgggtggcttgtcctccagtgacacaatggattaccgacagtgactaagggcagcatgtttaacccaggtgaagatct 138 205200 tttctggccttcacccagacgaagaccttccacgaggccagcgaggactgcatctcgcgcgggggcaccctgagcacccctcagactgg _at ctcggagaacgacgccctgtatgagtacctgcgccagagcgtgggcaacgaggccgagatctggctgggcctcaacgacatggcggccg agggcacctgggtggacatgaccggcgcccgcatcgcctacaagaactgggagactgagatcaccgcgcaacccgatggcggcaagacc gagaactgcgcggtcctgtcaggcgcggccaacggcaagtggttcgacaagcgctgccgcgatcagctgccctacatctgccagttcgg gatcgtgtagccggc 139 205259 gcagactgggagttgctagcaaacaaatggcttacttacaaaagcagcttttagttcagacttagtttttataaaatgagaattctgac _at ttacttaaccaggtttgggatggagatggtctgcatcagctttttgtattaacaaagttactggctctttgtgtgtctccaggtaactt tgcttgattaaacagcaaagccatattctaaattcactgttgaatgcctgtcccagtccaaattgtctgtctgctcttatttttgtacc atattgctcttaaaaatcttggtttggtacagttcataattcaccaaaaagttcatataatttaaagaaacactaaattagtttaaaat gaagcaatttatatctttatgcaaaaacatatgtctgtctttgcaaagga 140 205267 gcacccagcatttaccatgtgggtttctttagtgtcttaaaagcgtccataagccaccattctgtggaaccaaggccccctccacgcaa _at acaccctccctcctggggacctctggagcctcagccagaagtaccattaggtttaattttaatttgttttgctggagaaacatcaggtt tgtaggagactgagttgttagcaggtgtgcttagctcttgatagtgaacgtgtaccttgggaactggctcacccacctgctaatagcac catcgtcactattaagcagacatttcagttggtagaatccatgtagaagtcatggacttttctgggaaatgacttttctgggaaatgac agtttctttgacatattttctttgcccactt 141 205382 cgccatcaccgagcgcttgatgtgcgcggagagcaatcgccgggacagctgcaagggtgactccgggggcccgctggtgtgcgggggcg _s_at tgctcgagggcgtggtcacctcgggctcgcgcgtttgcggcaaccgcaagaagcccgggatctacacccgcgtggcgagctatgcggcc tggatcgacagcgtcctggcctagggtgccggggcctgaaggtcagggtcacccaagcaacaaagtcccgagcaatgaagtcatccact cctgcatctggttggtctttattgagcacctactatatgcagaaggggag 142 205403 gggccacgccaggaatattcagaaaataatgagaactacattgaagtgccattgatttttgatcctgtcacaagagaggatttgcacat _at ggattttaaatgtgttgtccataataccctgagttttcagacactacgcaccacagtcaaggaagcctcctccacgttctcctggggca ttgtgctggccccactttcactggccttcttggttttggggggaatatggatgcacagacggtgcaaacacagaactggaaaagcagat ggtctgactgtgctatggcctcatcatcaagactacaatcctatcccaa 143 205412 gctgctctggttctcatgacggcagatgcagcgaagaggctcaatgttacaccactggcaagaatagtagcatttgctgacgctgctgt _at agaacctattgattttccaattgctcctgtatatgctgcatctatggttcttaaagatgtgggattgaaaaaagaagatattgcaatgt gggaagtaaatgaagcctttagtctggttgtactagcaaacattaaaatgttggagattgatccccaaaaagtgaatatcaatggagga gctgtttctctgggacatccaattgggatgtctggagccaggattgttggtcatttgactcatgccttgaagcaaggagaatacggtct tgccagtatttgcaatggaggaggaggtgcttctgccatgctaattcagaagctgtagacaacctctgctatttaaggagacaacccta tgtgaccagaa 144 205433 ggaaagcaggattccatcgctggaacaattacatgatggactggaaaaatcaatttaacgattacactagcaagaaagaaagttgtgtg _at ggtctctaattaatagatttaccctttatagaacatattttcctttagatcaaggcaaaaatatcaggagcttttacacacctactaaa aaagttattatgtagctgaaacaaaaatgccagaaggataatattgattcctcacatctttaacttagtattttacctagcatttcaaa acccaaatggctagaacatgtttaattaaatttcacaatataaagttctacagttaattatgtgcatattaaaacaatggcctggttca atttctttctttccttaataaatttaagttttttccccccaaaattatcagtgctctgcttttagtcacgtgtattttcattaccactc gtaaaaaggtatcttttttaaatgaattaaatattgaaacactgtacaccatagtttaca 145 205464 gagggtgatgccatctaaccctgcccctgtccaccccgggtgggtgaaactcactgagcagccaagactgttgcccgaggactcactgt _at atggtgccctctccaaagggtcgggagggtagctctccaggccagagcttgtgtccttcaacagagaggccagcggcaactggtccgtt actggccaagggctctgaagaatcaacggtgctggtacaggatacaggaataaattgtatcttcacctggttcctaccctcgtccctac ctgtcctgatcctggtcctgaagacccctcggaacaccctctcctggtggcaggccacttccctcccagtgccagtctccatccacccc agagaggaacaggcgggtgggccatgtggttttctccttcctggccttggctggcctctggggcaggggtggtggagagatggaagggc atcaggtgtagggaccctgccaagtggcacctgatttactctag 146 205480 ttaatgtgccaaggagccgttttctgcctgtcaaaaccacatcagatctcttgctggtgatgtcaaacctctatagtcttaatgcagga _s_at tctctgacaatgagtgaaaagcgggaatttcctacagtgcccttggttaaattaggcagttcttttacgaaggttcaagattatctaag aagatttgaaagtataccagatatgcttgaattggatcacctcacagtttcaggagatgtgacatttggaaaaaatgtttcattaaagg gaacggttatcatcattgcaaatcatggtgacagaattgatatcccacctggagcagtattagagaacaagatagtgtctggaaacctt cgcatcttggaccactgaaatgaaaaatactgtggacacttaaataatgggctagtttcttacaatgaaatgttctctaggatttaggc actaaaaggtactttactatgttactgtaccctgc 147 205547 caagaatgatgggcactaccgtggagatcccaactggtttatgaagaaagcgcaggagcataagagggaattcacagagagccagctgc _s_at aggagggaaagcatgtcattggccttcagatgggcagcaacagaggggcctcccaggccggcatgacaggctacggacgacctcggcag atcatcagttagagcggagagggctagccctgagcccggcgctcccccagctccttggctgcagccatcccgcttagcctgcctcaccc acacccgtgtggtaccttcagccctggccaagctttgaggctctgtcactgagcaatggtaactgcacctgggcagctcctccctgtgc ccccagcctcagcccaacttcttacccgaaagcatcactgccttggcccctccctcccggcggcccccatcacctctactgtctcctcc ctgggctaagcaggggagaagcgggctgggggtagcctggatgtgggcgaagtccactgtcctccttggcggcaaaagcccatt 148 205554 tcaaagacttcgtgattatccccctgcacaccaccccagagacatccgttaaggagatcgatgagttggttgaggtctacacggacgtg _s_at aaacaccgctggaaggcggagaatttcattttcatgggtgacttcaatgccggctgcagctacgtccccaagaaggcctggaagaacat ccgcttgaggactgaccccaggtttgtttggctgatcggggaccaagaggacaccacggtgaagaagagcaccaactgtgcatatgaca ggattgtgcttagaggacaagaaatcgtcagttctgttgttcccaagtcaaacagtgtttttgacttccagaaagcttacaagctgacg aagaggaggccctggatgtcagcgaccactttccagttgaatttaaactacagtcttcaagggctcttcaccaacagcaaaaaatctgt cactctaaggaagaaaacaaagagcaaacgctcctagacccaagggtctcatcttattaaccatttcttgcctctaaata 149 205593 aacgaggagcacatgaccctgctgaagatgattttgataaaatgctgtgatatctctaacgaggtccgtccaatggaagtcgcagagcc _s_at ttgggtggactgtttattagaggaatattttatgcagagcgaccgtgagaagtcagaaggccttcctgtggcaccgttcatggaccgag acaaagtgaccaaggccacagcccagattgggttcatcaagtttgtcctgatcccaatgtttgaaacagtgaccaagctcttccccatg gttgaggagatcatgctgcagccactttgggaatcccgagatcgctacgaggagctgaagcggatagatgacgccatgaaagagttaca gaagaagactgacagcttgacgtctggggccaccgagaagtccagagagagaagcagagatgtgaaaaacagtgaaggagactgtgcct gaggaaagcggggggcgtggctgcagttctggacgggctggccgagctgcgcgggatccttgtgcagggaagagctgccctgggcacct ggcaccacaagaccatgttttctaa 150 205683 tgacgcaaaataccaccttggcgcctacacgggagacgacgtccgcatcgtccgtgacgacatgctgtgtgccgggaacacccggaggg _x_at actcatgccagggcgactccggagggcccctggtgtgcaaggtgaatggcacctggctgcaggcgggcgtggtcagctggggcgagggc tgtgcccagcccaaccggcctggcatctacacccgtgtcacctactacttggactggatccaccactatgtccccaaaaagccgtgagt caggcctgggttggccacctgggtcactggaggaccaacccctgctgtccaaaacaccactgcttcctacccaggtggcgactgccccc cacaccttccctgccccgtcctgagtgccccttcctgtcctaagccccctgctctcttctgagccccttcccctgtcctgaggaccctt ccctatcctgagcccccttccctgtcctaagcctgacgcctgcaccgggccctccagccctcccctgcccagatagctggtggtgggcg ctaatcct 151 205892 gaagagggagctctattgccaccatgagtttctccggcaagtaccaactgcagagccaggaaaactttgaagccttcatgaaggcaatc _s_at ggtctgccggaagagctcatccagaaggggaaggatatcaagggggtgtcggaaatcgtgcagaatgggaagcacttcaagttcaccat caccgctgggtccaaagtgatccaaaacgaattcacggtggg 152 205929 ccttctctggtctccttgagatgatcgtagacacagggatgattcccacccaaacccacgtattcattcagtgagttaaacacgaattg _at atttaaagtgaacacacacaagggagcttgcttgcagatggtctgagttcttgtgtcctggtaattcctctccaggccagaataattgg catgtctcctcaacccacatggggttcctggttgttcctgcatcccgatacctcagccctggccctgcccagcccatttgggctctggt tttctggtggggctgtcctgctgccctcccacagcctccttctgtttgtcgagcatttcttctactcttgagagctcaggcagcgttag ggctgcttaggtctcatggaccagtggctggtctcacccaactgcagtttactattgctatcttttctggatgatcagaaaaataattc cataaatctattgtctacttgcgattttttaaaaaatgtatatttttatatatattgttaaatccttgcttcattcca 153 205935 tctcccaacctctactgtaaactttctggtccgagaacgagccgaacacagcgcgacgcagggactaggacggcccggtgaccgcgcgg _at attcaggattgcggggacgcagaaaggttaaggcacttttaaaaactatagcaaggctcctgtttatttattctactttctttccctaa taatcaaaacaccgcgtaggctcctccgtttatcagtattaatggtgtaactttgttggcaatatttgccgtgtagaattttttttaga tatccattgtaaatttgaaacaaagaccgatctgtgtaaaaacaaatttccatatgttttatataaatatatatataatatgaaggact accctcctttttttttttttgtattttggctgctagagtgcagcatttgtgacacgtatttgaaatttgaaatttccttctgcactgta taaaaggaccatttgaggatgttttgccttttgtgtatttt 154 205950 gagccccattcacaaattttgacccctctactctccttccttcatccctggatttctggacctaccctggctctctgactcatcctcct _s_at ctttatgagagtgtaacttggatcatctgtaaggagagcatcagtgtcagctcagagcagctggcacaattccgcagccttctatcaaa tgttgaaggtgataacgctgtccccatgcagcacaacaaccgcccaacccaacctctgaagggcagaacagtgagagcttcattttgat gattctgagaagaaacttgtccttcctcaagaacacagccctgcttctgacataatccagttaaaataataatttttaagaaataaatt tatttcaatattagcaagacagcatgccttcaaatcaatctgtaaaactaagaaacttaaattttagttcttactgcttaattcaaata ataattagtaagctagcaaatagtaatctgtaagcataagcttatcttaaattcaagtttagtttgaggaattctttaaaattacaact aagtgatttgtatgtctatttttttc 155 206000 ggcagcttttttatcagccttgctttggataggacctccaaggactaagcctccagccccatgtgtgacccttgtcatctctctgcccc _at acataattatgttactttgctatgtgctcctaatgtatctagtgtgtcctgtgacaacactcatcacacttcattgtaaatcacttgtt ttattgactgtctttcctatagactgtaagctccatgagggcaggcacatgttgttctcattgaccgtgctggccccagtgcctagatg catggctggcacattgttggcactcaacaatggttgaatgaataaaacaataaatgaatgaataactaagatatagaaactctcattta tattgcagattgaatatatatgatgaaattcttatgttgaatatgttagaatcaaatactcatttttcattagatacagtagtgtcatc actcttttaagatcttgttaaagatttcaaataaaggtacttctggcgagccaggctgcacagcatttgctttcct 156 206094 tatttgaatatgtatcgtgccccctccggagtctttgatcaggatgacatgtgccatttttcagaggacgtgcagacaggctggcattc _x_at tagattacttttcttactctgaaacatggcctgtttgggagtgcgggattcaaaggtggtcccacggctgcccctactgcaaatggcag ttttaatcttatcttttggcttctgcagatggttgcattgatccttaaccaataatggtcagtcctcatctctgtcctgacttcatagg t 157 206134 ctttctatattgttatcagtccaggaaacaggtaaacagatgtaattagagacattggctctttgataggcctaatctttctttttact _at tttttttttcttttttctttttttttaaagatcatgaatttgtgacttagttctgccctttggagaacaaaagaaagcagtcttccatc aaatcaccttaaaatgcacggctaaactattcagagttaacactccagaattgttaaattacaagtactatgctttaatgcttctttca tcttactagtatggcctataaaaaaaataataccacttgatgggtgaaggctttggcaatagaaagaagaatagaattcaggttttatg ttattcctctgtgttcacttcgccttgctcttgaaagtgcagtatttttctacatcatgtcgagaatgattcaatgtaaatatttttca ttttatcatgtatatcctatacacacatctccttcatcatcatatataagtttattttgagaagtctacattgcttacattt 158 206143 taacaatccatgatgctgttttgcatattgatgaagaaagattacagtacttcaaagtttaatcccagtcaggaaaaagatggaaaaat _at tgattttaccataaatacaaatggaggattacgtaatcgggtatatgaggtgccagttgaaacaaaattctaatcaacatataattcag aaggatcttcatctgactatgacataaaaacaactttatacccagaaagttattgataagttcatacattgtacgaagagtatttttga cagaatatgtttcaaactttggaacaagatggttctagcatggcatatttttcacatatctagtatgaaattatataagtattctaaat tttatatcttgtagctttatcaaagggtgaaaattattttgttcatacatatttttgtagcactgacagatttccatcctagtcactac cttcatgcataggtttagcagtatagtggcgccactgttttgaatct 159 206149 tcatcaggctccagttattctccatctcccagctcagctttttctgtctgtaagcctgattttcaggaaggctctttcctagtgatgga _at gatgaccaccatcagctccaggcttctatcctgctaacccagtaacccagtgggaagagatttacttattccaataattccaagtggag agtgtcattgacccgtttggggtctcatctctacttctaggggaatgaaacactttgagtggccaggcctgtgtcatgtgctaattcct agagccagggaaataaggtctgaggattcaggatggggtgaaaggtggttgcttaaaggaaaatgaaatacaattagcagaataagggg aaacgagtggtctgctctgctcgggcaaaacaagagatgcccattactgtgagggacccttgaagtctggactcttaaatgggtttttg ctgatttcctgggtgcatgctagg 160 206198 accagcaacaacttcaatccggtggagaacaaagatattgtggttttaacctgtcaacctgagactcagaacacaacctacctgtggtg _s_at ggtaaacaatcagagcctcctggtcagtcccaggctgctgctctccactgacaacaggaccctcgttctactcagcgccacaaagaatg acataggaccctatgaatgtgaaatacagaacccagtgggtgccagccgcagtgacccagtcaccctgaatgtccgctatgagtcagta ca 161 206199 atattagttaccctggtgtgctgtattctctaaaacctttaaatgtttgcatgcagccattcgtcaaatgtcaaatattctctctttgg _at ctggaatgacaaaaactcaaataaatgtatgattaggaggacatcataacctatgaatgatggaagtccaaaatgatggtaactgacag tagtgttaatgccttatgtttagtcaaactctcatttaggtgacagcctggtgactccagaatggagccagtcatgctaaatgccatat actcacactgaaacatgaggaagcaggtagatcccagaacagacaaaactttcctaaaaacatgagagtccaggctgtctgagtcagca cagtaagaaagtcctttctgctttaactcttagaaaaaagtaatatgaagtattctgaaattaaccaatcagtttatttaaatcaattt atttatattcttctgttcctggattcccattttacaaaacccactgttctactgttgtattgcccagt 162 206208 cccaggaccctgaagacgaaattgcggtgctggcctttctggtggaggctggaacccaggtgaacgagggcttccagccactggtggag _at gcactgtctaatatccccaaacctgagatgagcactacgatggcagagagcagcctgttggacctgctccccaaggaggagaaactgag gcactacttccgctacctgggctcactcaccacaccgacctgcgatgagaaggtcgtctggactgtgttc cgggagcccattcagcttcacagagaacagatcctggcattctctcagaagctgtactacgac aaggaacagacagtgagcatgaaggacaatgtcaggcccctgca 163 206209 accacaccgacctgcgatgagaaggtcgtctggactgtgttccgggagcccattcagcttcacagagaacagatcctggcattctctca _s_at gaagctgtactacgacaaggaacagacagtgagcatgaaggacaatg tcaggcccctgcagcagctggggcagcgcacggtgataaagtccggggccccgggtcggccgctgccc tgggccctgcctgccctgctgggccccatgctggcctgcctgctggccggcttcctgcgatgatggctcacttctgcac 164 206262 actgactggacgcacgtggaaaggagctatttttggaggctttaagagtaaagaatctgtcccgaaacttgtggctgactttatggcta _at agaagttttcactggatgcattaataacaaatattttaccttttgaaaaaataaatgaaggatttgacc tgcttcgctctggaaagagtatccgtaccgtcctgacgttttgaaacaatacagatgcct tcccttgtagcagttttcagcctcctctaccctacatgatctggagcaacagctaggaaatatcattaattctgctcttcagagatgt taaaaataaattacacgtgggagctttccaa 165 206377 gttggtcactgttatttgcctactgctggaagaaggacaaccgctggcaaggtagcgttccccaatctgaatacctgcaggctccca _at catgagggagagggcagactcaggtgggaagatgtgccatgcgtaaggcatcaacg tgtatctgtgggatcttcgttgccttcagtaatcagggtgtgaaaaaagcagacaagttgtgtgtgtg tgtgtgtgtctaagaaaacttgtgtgcttttcaaaaaggcagtgctaagcacaagatttcaagaaagcctcttcttgttgcc tagctgagtgggagagtcattttccccagacactacatttggatacaggtgccaaagaacattattaagga attatttagaaacaatgtgtctagtttaagaaagtggttttcagtattgtgacaatacaacgttttt acaaggttgttttctaccaccatattttaaagatatttttatgaccgtgtatactcacactttgctt 166 206385 aaagcccttcatctaatatttgttgctattgccaatttttcaatgaaatgacctaaaaacaacaaaaaaaaataacctatacgg _s_at tagttgctttagggggtggggggatgctatctgttagtgcttaaaagggggtaaatgcttg ccgctttagaggtggatggtgctcataaaaggccccagtcgggggtatttaaaaaggactgaacagaaa tccttagctagtagaatggcagcacgctgtaaaattattactgtattgtgtactggctataagatgtagacacctttcagtaa gccaatcatttgtaaccattctagcagtgtcatattaggttaataaggctgctgtgttttaaagggca tttttatttgggttttggtgaaattctttaatttgttgattatattcacataaaatcagcattcattgacacatag ctctaatgacatatgtatgaaaaaccatacactggatgacctagtcga 167 206422 ctgatggttctttctctgatgagatgaacaccattcttgataatcttgccgccagggactttataaactggttgattcagaccaaa _at atcactgacaggaaataactatatcactattcaagatcatcttcacaacatcacctgctagccacgtgggatgtttgaaa tgttaagtcctgtaaatttaagaggtgtattctgaggccacattgctttgcatgccaataaataaattttcttttagtgt tgtgtagccaaaaattacaaatggaataaagttttatcaaaatattgctaaaatatcagctttaaaatatgaaagtgctagattct gttattttcttcttattttggatgaagtaccccaacctgtttacatttagcgataaaattatttttctatgatataatttgtaaat gtaaattattccgatctgacatatctgcattataataataggagaatagaagaactggtagccacagtg gtgaaattggaaagagaactttcttcctgaaacctttgtcttaaaaatactcagctttcaatgtatcaa 168 206461 gccggctcctgcaagtgcaaaaagtgcaaatgcacctcctgcaagaagagctgctgctcctgttgccccctgggctgtgccaagt _x_at gtgcccagggctgcatctgcaaaggggcgtcagagaagtgcagctgctgtgcctgatgtcgggacagcc ctgctgtcagatgaaaacagaatgacacgtaaaatccgaggttttttttttctaca actccgactcatttgctacattcctttttttctg 169 206561 ttccctgctggaggatcccaagattaaggagattgctgcaaagcacaaaaaaaccgcagcccaggttctgatccgtttccatat _s_at ccagaggaatgtgattgtcatccccaagtctgtgacaccagcacgcattgttgagaacattcaggtctttgacttt _ aaattgagtgatgaggagatggcaaccatactcagcttcaacagaaactggagggcctgtaacgtgttgcaatcctctcat ttggaagactatcccttcaatgcagaatattgaggttgaatctcctggtgagattatacaggagattctctttcttcgctga agtgtgactacctccactcatgtcccattttagccaagcttatttaagatcacagtgaacttagtcctgttatagacgagaat cgaggtgctgttttagacatttatttctgtatgttcaactaggatcagaatatc acagaaaagcatggcttgaataaggaaatgacaattttttccacttatctgatcagaacaaatgtttattaagcatcagaaact ctgccaacactga 170 206576 taagtccagtagtagcaaagccccaaatcaaagccagcaagaccacagtcacaggagataaggactctgtgaacctgacctgc _s_at tccacaaatgacactggaatctccatccgttggttcttcaaaaaccagagtctcccgtcctcg gagaggatgaagctgtcccagggcaacaccaccctcagcataaaccctgtcaagaggga ggatgctgggacgtattggtgtgaggtcttcaacccaatcagtaagaaccaaagcgaccccat 171 206637 tgagcctggggttctggtgttagaatatttttaagtaggctttactgagagaaactaaatattggcatacgttatcagcaact _at tcccctgttcaatagtatgggaaaaataagatgactgggaaaaagacacacccacaccgtagaacatatattaatctactggcg aatgggaaaggagaccattttcttagaaagcaaataaacttgatttttttaaatctaaaatttacattaatgagtgc aaaataacacataaaatgaaaattcacacatcacatttttctggaaaacagacggattttacttctggagacatggcat acggttactgacttatgagctaccaaaactaaattctttctctgctattaactggctagaagacattcatctatttttcaaatg ttctttcaaaacatttttataagtaatgtttgtatctatttcatgctttact 172 206641 atttctttggcagttttcgtgctaatgtttttgctaaggaagataagctctgaaccattaaaggacgagtttaaaaacacagga _at tcaggtctcctgggcatggctaacattgacctggaaaagagcaggactggtgatgaaattattcttccgagaggcctcgag tacacggtggaagaatgcacctgtgaagactgcatcaagagcaaaccgaaggtcgactctgaccattgctttccac tcccagctatggaggaaggcgcaaccattcttgtcaccacgaaaacgaatgactattgcaagagcctgccagctgc tttgagtgctacggagatagagaaatcaatttctgctaggtaattaaccatttcgactcgagcagtgccactttaaaaatct tttgtcagaatagatgatgtgtcagatctctttaggatgactgtatttttcagttgccgatacagctttttgtcctctaactg 173 206664 gaagacactaccaacatgatattacgtattgatctgaccacacacaatgttactctagaagaaccaatagaaatcaactggtcatgaa _at gatcaccatcaattttagttgtcaatgggaaaaaacaccaggatttaagtttcacagcacttacaattttccctcttcacttggttc ttgtactctacaaaatatagctttcataacatcgaaaagttattttgtagcgtacatcaatgataatgctaattttattatagtaat gtgacttggattcaattttaaggcatatttaacaaaatttgaatagccctatttatccttgttaagtatcagctacaattgtaa actagttactaaacatgtatgtaaatagctaagatataatttaaacgtgatttttaaattaaataaaatttttatgtaattatata tactatatttttctcaatgtttagcagatttaagatatgtaacaacaattatttgaagatttaattacttcttagtatgtgcattta 174 206710 attgcaatttcttaggtaaccttatatttacaataaatgaagattaccctcaaatgctagaagctgtctaggtccgtccggtgtgtca _s_at gatttcctcagattagatgtgccaataaccaagtttattcagtaaacaacttgtacttgtttcatctggttt attactctcacccataaacagtaatgactctctgaccctctggaaatatgtaatgcttccaatcttg 175 206784 ttttggacctgcggtggtggccaaccactggaacttccactggatctactggctgggcccactcctggctggcctgcttgttggact _at gctcattaggtgcttcattggagatgggaagacccgcctcatcctgaaggctcggtgagcagagctcgtgggattcctgctgct ccaggtgtcctcagctcacctgtcccagactgaggacaggggagttcctgcatttcctgccagggcagaggcccagaggagcgacc ccctgcttccactgcttgggcctgctttctcagatagactgactgctgaggaggctctaggttcttggaattcctttgtgctca tcagagaccccagcctggggaacacgctgcccgcactgcccagagagcagtgcaaacaccacaacacgagcgtgtttcttgaga ggaatgtccccgagttggacaaggaggctgtttctgcacatcagctcatttcc 176 207003 gaggggtcaccgtgcaggatggaaatttctccttttctctggagtcagtgaagaagctcaaagacctccaggagccccaggagc _at ccagggttgggaaactcaggaactttgcacccatccctggtgaacctgtggttcccatcctctgtagcaacccgaactttccag aagaactcaagcctctctgcaaggagcccaatgcccaggagatacttcagaggctggaggaaatcgctgaggacccgggcaca tgtgaaatctgtgcctacgctgcctgtaccggatgctaggggggcttgcccactgcctgcctcccctccgcagcagggaag ctcttttctcctgcagaaagggccacccatgatactccactcccagcagctcaacctaccctggtccagtcgggaggagcagcc cggggaggaactgggtgact 177 207080 tcgtctgcttcacaagctatcgctatggtgttcgtgcgcaggccgtggcccgccttgaccacagtgcttctggccctgctcgt _s_at ctgcctaggggcgctggtcgacgcctaccccatcaaacccgaggctcccggcgaagacgcctcgccggaggagctgaaccgc tactacgcctccctgcgccactacctcaacctggtcacccggcagcggtatgggaaaagagacggcccg 178 207126 tatttgaatatgtatcgtgccccctccggtgtctttgatcaggatgacatgtgccatttttcagaggacgtgcagacaggctg _x_at gcattctagattacttttcttactctgaaacatggcctgtttgggagtgcgggattcaaaggtggtcccaccg ctgcccctactgcaaatggcagttttaatcttatcttttggcttctgcagatggttgcaattgatcc ttaaccaataatggtcagtcctcatctctgtcctgcttcataggtgccaccttgtgtgtttaaa 179 207134 tgacgcaaaataccaccttggcgcctacacgggagacgacgtccgcatcgtccgtgacgacatgctgtgtgccgggaacac _x_at ccggagggactcatgccagggcgactccggagggcccctggtgtgcaaggtgaatggcacctggctgcaggcgggcgtggt cagctggggcgagggctgtgcccagcccaaccggcctggcatctacacccgtgtcacctactacttggactggatccac cactatgtccccaaaaagccgtgagtcaggcctgggttggccacctgggtcactggaggaccaacccctgctgtccaaaac accactgcttcctacccaggtggcgactgccccccacaccttccctgccccgtcctgagtgccccttcctgtcctaagccc cctgctctcactgagccccttcccctgtcctgaggacccttccccatcctgagcccccttccctgtcctaa gcctgacgcctgcaccgggccctccggccctcccctgcccaggcagctggtggtgggcgct 180 207245 atgatcacaaaatgttgcctgttttgtttccgaaagcttgccaaaacaggaaagaagaagaaaagggattagttatatcaa _at aagcctgaagtggaatgaccaaaagatgggactcctcctttattccagcatggagggttttaaatggaggatttccttt ttcctgcgacaaaacgtcttttcacaacttaccctgttaagtcaaaatttattttccaggaatttaatatgtactttagt tggaattattctatgtcaatgatttttaagctatgaaaaataataatataaaaccttatgggcttatattgaaatttat tattctaatccaaaagttaccccacacaaaagttactgagcttccttatgtttcacacattgtatttgaacac aaaacattaacaactccactcatagtatcaacattgattgcaaatactcagaatattttggcttcattttgagcagaat 181 207266 caagtatcggggctctgctatcaaggtgcaaagtccttcgtggatgcaacctcaaccatatattctacagcaccctggtg _x_at ccgtgttaactccctcaatggagcacaccatgtcactacagcccgcatcaatgatcagccctctggcccagcagatgagt catctgtcactaggcagcaccggaacatacatgcctgcaacgtcagctatgcaaggagcctacttgccacagtatgcac atatgcagacgacagcggttcctgttgaggaggcaagtggtcaacagcaggtggctgtcgagacgtctaatgacc attctccatatacctttcaa 182 207390 tggactggtgtcgagccaagactcggggcctacgagcacgtcgacatccagaacttctcctccagctggagtgatgggat _s_at ggccttctgtgccctggtgcacaacttcttccctgaggccttcgactatgggcagcttagccctcagaaccgacgccaga acttcgaggtggccttctcatctgcggagatgctggtggactatgtgcccctggtggaggtggacgacatgatgatca tgggcaagaagcctgaccccaagtgtgtcttcacctatgtgcagtcgctctacaaccacctgcgacgccacgaactg gcctcgcgcggcaagaatgtctagcctgcccgcccgcatggccagccagtggcaactgccgcccccactctccgggcac cgtctcctgcctgtgcgtccgcccaccgctgccctgtctgttgcgacaccctcccccccacatacacacgcagcgttttga 183 207392 ggatgtgatagcattcctgctggcctgcgtggcaactgtgatatttatcatcacaaaattttgcctgttttgtttccgaaagcttgc _x_at caaaacaggaaagaagaagaaaagagattagttatatcaaaagcctgaagtggaatgactgaaagatgggactcctcctttatt tcagcatggagggttttaaatggaggatttcctttttcctgtgacaaaacatcttttcacaacttaccttgttaagacaaaatt tattttccagggatttaatacgtactttagttggaattattctatgtcaatgatttttaagctatgaaaaatacaatggggggaag gatagcatttggagatatacctaatgttaaatgacgagttactggatgcagcacgcaacatggcacatgtgtatacatatgtagc taacccttcgttgtgcacatgtaccctaaaacttaaagtataatttaaaaaaagcaaaaaaaaaaaataccaac tcttttttttaaaccaggaaggaaaatgtgaacatggaaacaacttctagtattggatctg 184 207432 gccccggagtgcagctgcggggacccgctgctcgaccccggcctgccggagcccgaggccccgccccctgcgggtcccgaaccgctt _at accctcatccctgggcctgtcgagcccttcagcatcgtgaccatgcccgggccccggggtccggcgccaccctggctgcccagccct attggcgaggaggaggagaatctggcctgagatcttagagcccagccccctaaggacagggaaccaggtccctgcacggcacccac gcaggtgtcccggtctgcataagcctcgtatgcctttgtaaagtccacctacacttttgaccagctctcgctgcccgcatgtgttt cggcgctgtgtaggggcgggagttaccagactcttggaccagcccgccctgaccaccagctctacttcccaacccccactg cctgagaggtctctatcagtgtcctgcctgaattctttccttcaagtgaagatgtgactgactacctcctcgagttgtcatga 185 207502 gaacccagggagcgcgatgggctgcagggctgcgtcagggctcctgccaggagtggccgtggtcctcctgctgctgctgcagagca _at cacagtcagtctacatccagtaccaaggcttccgggtccagctggaatccatgaagaagctgagtgacctggaggcacagtgggc acccagcccccgcctgcaggcccagagcctcctgcccgccgtgtgccaccaccctgctctgcctcaggaccttcagcctgtctgc gcctcgcaggaggcttccagcatcttcaagaccctgaggaccatcgctaacgacgactgtgagctgtgtgtgaacgttgcgtg taccggctgcctctgagatagccctgggtaccctgagcccaccagggacacctcgcccttcagcccaccaccctg gcaggcttccatccccgtccatgctcaagatgggtc 186 207761 ttattcttagcgtcactggtctggctttcagaattaacatacaaggttgccacacctagttctgcccagctttatgtcttttattc _s_at cagtattccaccaaagtttgttttcctgcattccagttctcaagtcttaagataaagattgtacttgacagtttagtatatccata aaactatttgaggtggttaaggttcttgggttcattttccttaatactttgctgaatattgtagattgtaggcaatgaaaaagt ctactaaattaggaaaaccttgaataattaggtatcctaggtaagagcccctaaacatcaagcaatctgtgagtctgtaaagaaat aaatattttttggattattcttatctaattccacccctgttggaagatgatttctttgttctttgcaactatggaagctgtgaaaa tcatcacaagtgcctctgaaagcgagtgttaggttggttagagggt 187 207961 gtgacggtgctgaagaaggccctggatgaagagacgcggtcccatgaggctcaggtccaggagatgaggcagaaacacgcacagg _x_at cggtggaggagctcacagagcagcttgagcagttcaagagggccaaggcgaacctagacaagaataagcagacgctggagaaa gagaacgcagacctggccggggagctgcgggtcctgggccaggccaagcaggaggtggaacataagaagaagaagctggaggcgc aggtgcagacactgagtttttagaaaaacatatccacggtaaccggtccctggcaattctgtttacatgaaatggggagaaagtc accgaaatgggtgccgccggcccccactcccaattcattccctaacctgcaaacctttccaacttctcacgtcaggcctttg agaattctttccccctctcctggtttccacacctcagacacgcacagttcaccaagtgccttctgtagtcacatgaattgaaaa ggagacgctgctcccacggaggggagcaggaatgctgcactgtttacaccctgactgtgcttaaa 188 207977 tagtggccgtgaggagcatcttcagtaagaaggaaggttctgacagacaatggaactacgcctgcatgcccacgccacagagcctc _s_at ggggaacccacggagtgctggtgggaggagatcaacagggctggcatggaatggtaccagacgtgctccaacaatgggctggtggc aggattccagagccgctacttcgagtcagtgctggatcgggagtggcagttttactgttgtcgctacagcaagaggtgcccata ttcctgctggctaacaacagaatatccaggtcactatggtgaggaaatggacatgatttcctacaattatgattactatatccg aggagcaacaaccactttctctgcagtggaaagggatcgccagtggaagttcataatgtgccggatgactgaatacgactgt 189 207980 aatgtcatagacactgatttcatcgacgaggaagttcttatgtccttggtgatagaaatgggtttggaccgcatcaaggagctg _s_at cccgaactctggctggggcaaaacgagtttgattttatgacggacttcgtgtgcaaacagcagcccagcagagtgagctgttga ctcgatcgaaacccc 190 208131 ccccccaattgctgccaatagtggataacatgtatcactcactgccaaaaatagaaagtgaccatgaaaaataaattcgctgggga _s_at agggggctccatgctggtgtggccaaggctgagagctctctcttctctgttacaaaacgagataagcaagtnttagaattgcctt aaggccacactggcatctccctgaccttctccagggacagaagcaggagtaagtttctcatcccatgggcgaccagggccatctc ctcccaccagtggcccccactcacagggagctggcaatgccctacctgcctgttctccagatggagaaacaggctctgagat ttcacaggtatgcccaaagtcattgattttaatgattaaaaagaataaacacagtgtttcctgagtagcagtgattgttatgc cttgctatttta 191 208370 gatgtattaacctacctgtgaatcatatgttgtaggaaaagctgttcccatgtctaacaggacttgaattcaaagcatgtcaagtg _s_at gatagtagatctgtggcgatatgagagggatgcagtgcctttccccattcattcctgatggaattgttatactaggttaacatt tgtaatttttttctagttgtaatgtgtatgtctggtaaataggtattatattttggccttacaataccgtaacaatgtttgtca ttttgaaatacttaatgccaagtaacaatgcatgctttggaaatttggaagatggttttattctttgagaagcaaatatgtttgc attaaatgctttgattgttcatatcaagaaattgattgaacgttctcaaaccctgtttacggtacttggtaagagggagccggtt tgggagagaccattgcatcgctgtccaagtgtttcttgt 192 208383 agggcaagtgttcccaaattgacgccacctaataatcatcaccacaccgggagcagatctgaaggcacactttgatttttttaag _s_at gataagaaccacagaacactgggtagtagctaatgaaattgagaagggaaatcttagcatgcctccaaaaattcacatccaat gcatactttgttcaaatttaaggttactcaggcattgatcttttcagtgttttttcacttagctatgtggattagctagaatgc acaccaaaaagatacttgagctgtatatatatatgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgcatgtatgtgcacatgt gtctgtgtgatatttggtatgtgtatttgtatgtactgttattcaaaatatatttaatacctttggaaaatcttgggcaagat gacctactagttaccttgaaaaaaagttgctttgttattaatattgtgct 193 208399 ccgagccgagcttactgtgagtgtggagatgttatcccaccatgtaaagtcgcctgcgcaggggagggctgcccatctccccaac _s_at ccagtcacagagagataggaaacggcatttgagtgggtgtccagggccccgtagagagacatttaagatggtgtatgacaga gcattggccttgaccaaatgttaaatcctctgtgtgtatttcataagttattacaggtataaaagtgatgacctatcatgagga aatgaaagtggctgatttgctggtaggattttgtacagtttagagaagcgattatttattgtgaaactgttctccactccaa ctcctttatgtggatctgttcaaagtagtcactgtatatacgtatagagaggtagataggtaggtagattttaaattgcattctga atacaaactcatactccttagagcttgaattacatttttaaaatgcatatgtgctgtttggcaccgtgg caagatggtatcagagagaaacccatcaattgctcaaatactc 194 208450 ggagctgtcaccatgacgggggaacttgaggttaagaacatggacatgaagccggggtcaaccctgaagatcacaggcagcatcgc _at cgatggcactgatggctttgtaattaatctgggccaggggacagacaagctgaacctgcatttcaaccctcgcttcagcgaatc caccattgtctgcaactcattggacggcagcaactgggggcaagaacaacgggaagatcacctgtgcttcagcccagggt cagaggtcaagttcacagtgacctttgagagtgacaaattcaaggtgaagctgccagatgggcacgagctgact tttcccaacaggctgggtcacagccacctgagctacctgagcgtaaggggcgggttcaacatgtcctc 195 208581 gcgtgatcctcttgatcgggaactcctgcttctccttgcctcgaaatggaccccaactgctcctgctcgcctgttggctcct _x_at gtgcctgtgccggctcctgcaaatgcaaagagtgcaaatgcacctcctgcaagaagagctgctgctcctgctgcc ctgtcggctgtgccaagtgtgcccagggctgcatctgcaaagggacgtcagacaagtgcagctgctgtgcctga 196 208596 cccgaccatcgaatcttgcgaacaacacgatacttgttaagtggctaccccaaaacgatctgcttggtcacccgatgacccgtgcc _s_at tttatcacccatgctggttcccatggtgtttatgaaagcatatgcaatggcgttcccatggtgatgatgcccttgtttggtgatc agatggacaatgcaaagcgcatggagactaagggagctggagtgaccctgaatgttctggaaatgacttctgaagatttaga aaatgctctaaaagcagtcatcaatgacaaaagttacaaggagaacatcatgcgcctctccagccttcacaaggaccgcccggt ggagccgctggacctggccgtgttctgggtggagtttgtgatgaggcacaagggcgcgccacacctgcgccccgcagcccacg acctcacctggtaccagtaccattccttggacgtgattggtttcctcttggccgtcgtgctgacagtggccttcatcaccttt aaatgttgtgcttatggctaccggaaatgcttggggaaaaaagggcgagttaagaaagcccacaaatccaagacc 197 208747 tgcagaggcctatgttttcactcctaacatgatctgtgctggaggagagaagggcatggatagctgtaaaggggacagtggtgggg _s_a cctttgctgtacaggatcccaatgacaagaccaaattctacgcagctggcctggtgtcctgggggccccagtgtgggacctatgg gctctacacacgggtaaagaactatgttgactggataatgaagactatgcaggaaaatagcaccccccgtgaggactaatccag atacatcccaccagcctctccaagggtggtgaccaatgcattaccttctgttccttatgatattctcattatttcatcatgactg aaagaagacacgagcgaatgatttaaatagaacttgattgttgagacgccttgctagaggtagagtttgatcatagaattgtgc tggtcatacatttgtggtctgactccttggggtcctttccccggagtacctattgtagataacactatgggtggggcactccttt 198 208763 gggcctaaccagccttgggagtattgactggtcccttacctcttatggctaagtctttgactgtgttcatttaccaagttgaccca _s_at gtttgtcttttaggttaagtaagactcgagagtaaaggcaaggaggggggccagcctctgaatgcggccacggatgccttgct gctgcaaccctttccccagctgtccactgaaacgtgaagtcctgttttgaatgccaaacccaccattcactggtgctgactacata gaatggggttgagagaagatcattttgggcttcacagtgtcatttgaaaacgtatttgttttgttttgtaattattgtggaaaac tttcaagtgaacagaaggatggtgtcctactgtggatgagggatgaacaaggggatggctttgatccaatggagcctgggaggtg tgcccagaaagcttgtctgtagcgggttttgtgagagtgaacactttccactttttgacaccttatcctgatgtatggttc 199 208788 agatgtgtttagaacctcttgtttaaaaataatagactgcttatcataaaatcacatctcacacatttgaggcagtggtcaaacag _at gtaaagcctatgatgtgtgtcattttaaagtgtcggaatttagcctctgaataccttctccattgggggaaagatattcttggaac cactcatgacatatcttagaaggtcattgacaatgtataaactaattgttggtttgatatttatgtaaatatcagtttaccatg ctttaattttgcacattcgtactatagggagcctattggttctctattagtcttgtgggttttctgtttgaaaaggagtcat ggcatctgtttacatttaccttatcaaacctagaatgtgtatatttataaatgtatgtcttcattgctaggtactaatttgcagat gtctttacatatttcaatacagaaactataacattcaatagtgtgctgtcaaagtgtgcttagctcacctggatatacctacattg 200 208789 gaagggagtgttgctcccagtccagaggcctgattctgttcggactgggttctcaagacacgaccaggttctcaagacacgagtcc _at ccttgttcctccccattaaagggggtttgtcagaagcaagaacagcccctctccccagtcacagcctgaagggaggccccgaga gcttcctccttccccccacctgctccttaccttctctgccctgctttttagaactgcagttcattgttttaagggattggggga gggagcctggggacacaaaccttttatacaatacaaagctttgctttttttttttttttnnnannncttttccctttctcggtt ctcttctctcctctgaatggctgaagacccctctgccgagggaggttggggattgtgggacaaggtcccttggtgctgatggcc tgaaggggcctgagctgtgggcagatgcagttttctgtgggcttggggaacctctcacgttgctgtgtcctc tgagcagcccgaccaataaacctgcttt 201 208791 ggctgcctgcggatgaaggaccagtgtgacaagtgccgggagatcttgtctgtggactgttccaccaacaacccctcccaggcta _at agctgcggcgggagctcgacgaatccctccaggtcgctgagaggttgaccaggaaatataacgagctgctaaagtcctaccagtg gaagatgctcaacacctcctccttgctggagcagctgaacgagcagtttaactgggtgtcccggctggcaaacctcacgcaa ggcgaagaccagtactatctgcgggtcaccacggtggcttcccacacttctgactcggacgttccttccggtgtcact gaggtggtcgtgaagctctttgactctgatcccatcactgtgacggtccctgtagaagtctccaggaagaacccta 202 208792 agcagctgaacgagcagtttaactgggtgtcccggctggcaaacctcacgcaaggcgaagaccagtactatctgcgggtcacca _s_at cggtggcttcccacacttctgactcggacgttccttccggtgtcactgaggtggtcgtgaagctctttgactctgatccca tcactgtgacggtccctgtagaagtctccaggaagaaccctaaatttatggagaccgtggcgga gaaagcgctgcaggaataccgcaaaaagcaccgggaggagtgagatgtggatgttgc 203 208894 cgatcaccaatgtacctccagaggtaactgtgctcacgaacagccctgtggaactgagagagcccaacgtcctcatctgttt _at catagacaagttcacccca 204 208920 gatataccatgtattcacactttaaaaaatacacatagcagagtatcggaaagtatgtaccaaaacattgatctggctaccactgg _at gagtcaggatcatgagttcatcttcttcntncttnnnactgcttttccaaacattctccagtaagcaggtactacatttataat ggaaggaattttttaaaaaattttaagctgtacactttcaagtaagatctgaattctaatgctggcttgtgcctcttactat gtggtttggtcattatagataatgcccagtttcagtttccccatctttgaaaaggagataatatgttatctcttgggagtag ttctgaatatgaagttgtttgatacaagaagcactgacaatgtttctgtttcttaaatttaaaactggcctggtttgcctttt ttatcaagagagcttaacagataaaaaatgaaattagtctattttctacttgccagcagagtatctgtcttattttaggatgc agtgtgaaacttaccattcaactgaacaac 205 209047 gaaggctggattctatctacataagtcctttcaattccaccagggccagagcagctccaccactgtgcacttagccatgatggcaa _at cagaaaccaagagacacaattacgcaggtatttagaagcagagggacaaccagaaggcccttaactatcaccagtgcatcacatc tgcacactctcttctccattccctagcaggaacttctagctcatttaacagataaagaaactgaggcccacggtttcagctag acaatgatttggccaggcctagtaaccaaggccctgtctctggctactccctggaccacgaggctgattcctctcatttcca gcttctcagtttctgcctgggcaatggccaggggccaggagtggggagagttgtgatggaggggagaggggtcacacccacccc ctgcctggttntaggctgctgcacaccaaggccctgcatctgtctgctctgcatatatgt 206 209074 agacagctgtttagggtcttctcccctcacccatgctttcatcatcccctccgcacagcctccccgtccaggccttctaaccaca _s_at cctacccagggctgccgcattcctgcactcagaagtctgcagcggtgcctcacaaacttgattgtgcataaaaatcactggggat cttgttaatacagattctaactcaatagatctgggagatcctgcatttctaacaagctcccaggtaaggcggaggctgctggtgt gaggaccatgctgtgagcagcagggcgagagtgcccagggctgatatatattggaaatatcacccctgaagccatcgctggcc cccacctcctgtggactgatgccccagggattcccaccccacttctgcaaccccaggtatccttcattatccaccccatcccag actcccaccccagggattgcccgtgaagactttggcctagcaaattgtgttggttatgtgagtgttgttttaatcagagatgta catgattgccaatctgcatttcttaccagtgtgaccacac 207 209101 atcatcagatcgactcttatacgagtaatatgcctgctatttgaagtgtaattgagaaggaaaattttagcgtgctcactgacct _at gcctgtagccccagtgacagctaggatgtgcattctccagccatcaagagactgagtcaagttgttccttaagtcagaacagcag actcagctctgacattctgattcgaatgacactgttcaggaatcggaatcctgtcgattagactggacagcttgtggcaagtga atttgcctgtaacaagccagattttttaaaatttatattgtaaatattgtgtgtgtgtgtgtgtgtgtatatatatatatata tgtacagttatctaagttaatttaaagttgtttgtgcctttttatttttgtttttaatgctttgatatttcaatgttagcct caatttctgaacaccataggtagaatgtaaagcttgtctgatcgttcaaagcatgaaatggatacttatatggaa attctgctcagatagaatgacagtccgtcaaaacagattgtttgcaaaggggaggcatcagtgtcttg 208 209114 tacaccacaatggctgagcacttcctgacgttgctggtagtgcctgccatcaagaaagattatggttcccaggaagacttcactca _at agtgtggaacaccaccatgaaagggctcaagtgctgtggcttcaccaactatacggattttgaggactcaccctacttcaaag agaacagtgcctttcccccattctgttgcaatgacaacgtcaccaacacagccaatgaaacctgcaccaagcaaaaggctcacg accaaaaagtagagggttgcttcaatcagcttttgtatgacatccgaactaatgcagtcaccgtgggtggtgtggcagctgg aattgggggcctcgagctggctgccatgattgtttccatgtatctgtactgcaatctacaataagtccacttctgcctctgcca ctactgctgccacatgggaaactgtgaagaggcaccctgggcaagcagcagtgattgggggaggggacaggatctaacaatgtc acttgggccagaatggacctggcctttctgctcccagacttgggggctag 209 209116 gcagttatgggcaaccctaaggtgaaggctcatggcaagaaagtgctcggtgcctttagtgatggcctggctcacctggacaa _x_at cctcaagggcacctttgccacactgagtgagctgcactgtgacaagctncangtggatcctgagaacttcaggctnctnggca acgtgntngtctgngtgctggcccatcactttggcaaagaattcaccccaccag 210 209138 tctctgggctccaggctgaggacgaggctgattattactgctgctcatatgcaggtagttacactgtggttttcggcggagggacc _x_at aaactgaccgtcctaggtcagcccaaggctgccccctcggtcactctgttcccgccctcctctgaggagcttcaagccaacaa ggccacactggtgtgtctcataagtgacttctacccgggagccgtgacagtggcctggaaggcagataggagccccgtcaaggcgg gagtggagaccaccacaccctccaaacaaagcaacaacaagtacgcggccagcagctatctgagcctgacgcctga gcagtggaagtcccacagaagctacagctgccaggtcacgcatgaagggagcaccgtggagaagacagtggcccctacag aatgtt 211 209147 tttggtgcagctgctagtcagtccctgactgacattgccaagtattcaataggcagactgcggcctcacacttggatgtttgtga _s_at tccagattggtcaaaaatcaactgcagcgatggttacattgaatactacatatgtcgagggaatgcagaaagagttaaggaagg caggttgtccttctattcaggccactcttcgttttccatgtactgcatgctgtttgtggcactttatcttcaagccaggatgaa gggagactgggcaagactcttacgccccacactgcaatttggtcttgttgccgtatccatttatgtgggcctttctcgagttt ctgattataaacaccactggagcgatgtgttgactggactcattcagggagctctggttgcaatattagttgctgtatatgtat cggatttcttcaaagaaagaacttcttttaaagaaagaaaagaggaggactctcatacaactc tgcatgaaacaccaacaactgggaatcactatccgagcaatcaccagc 212 209156 gcacgccatcaatgccatcgtgcgcagcccgcgtggcggggcccggaggcacgcagagctgtccttcgtgttcctcacggacggcg _s_at tcacgggcaacgacagtctgcacgagtcggcgcactccatgcgcaacgagaacgtggtacccaccgtcctggccttgggcagc gacgtggacatggacgtgctcaccacgctcagcctgggtgaccgcgccgccgtgttccacgagaaggacta tgacagcctggcgcaacccggcttcttcgaccgcttcatccgctggatctgctagcgccgccgcccg ggccccgcagtcgagggtcgtgagcccaccccgtccatggtgctaagcgggccc 213 209167 tgtttcctcatagctagttctcaagctgcatgtaagattttaacgggaagagaaaataggcctggacctgaaggtctcaaatat _at gttgagaagaaagtatgaactataaggaacttgagatgtagatttattttgcaggaaatacgaggaaaataggaaagaagtg tttgccgcatcaagtgtaaagaatgatactgaggatttttacattttatgaaatgaaataatggcatttacaaaatgaaaaat gtagtttcacaactaagttttgttaacagagactgcatgctttgcttatagttcttaattttggttttgacattcatttaat tttttccatgttaaatatgtagtttaattatttactcaaaataaacattgttcatgcttttaggcctttgggggaattgattt ttatccacaggtagaaaatggtctttgcacacactacacttatttcaaatatacaatgtgctcccgaactttcgcattagtctt 214 209170 gaaatatcactgacactccagactaaaggagagtctaggtttctgcaattttgttacagtaatttgtaaatagctttagtaaactc _s_at accttgcatggtagattaataagatgacttactgtacatgaattacacaataatgagatctggtggctatttccacattttga aaaggattcagttatttactgacagtggtgagcatcctttttaaaataatgttctgatacttaaacattagagagcagtatctt taaatgaattattaacactttggaatacttacattttctgttatttttgattgcctgataaccagtttcaatgatgaaaatgaa aacaagtgctgaagatgaaatggaagagaaccgttttaatctggattttgttttgtcacacctggaaaatactttgcaaatatg ttctaaattgaaaacaatttttttatgatcacatggttcactaccaaatgaccctcaaataagccagatg 215 209191 gatagtcggaatagagccgccccaactcagatcctacaacacgcaagttccttcttgaaccctggtgcctcctaccctatggccct _at gaatggtgcactggtttaattgtgttggtgtcggcccctcacaaatgcagccaagtcatgtaattagtcatctggaacaaagac taaaaacagcagagaattgcgggttctacccagtcagaagatcacaccatggagactttctactagaggacttgaaagagaa ctgaggggccacaaaataaacttcaccttccattaagtgttcaagcatgtctgcaaattaggag ggagttagaaacagtctttttcatcctttgtgatgaagcctgaaattgtgccgtgttgccttatatgaatatg 216 209209 tgtctccccgctatctaaaaaagtataagaacaagcagataacagcgagaatcttggaggcccatcagaatgtagctcagatgag _s_a tctaattgaagccaagatgagatttattcaagcttggcagtcactacctgaatttggcatcactcacttcattgcaaggttcca agggggcaaaaaagaagaacttattggaattgcatacaacagactgattcggatggatgccagcactggagatgcaattaaaaca tggcgtttcagcaacatgaaacagtggaatgtcaactgggaaatcaaaatggtcaccgtagagtttgcagatgaagtacgattgt ccttcatttgtactgaagtagattgcaaagtggttcatgaattcattggtggctacatatttctctcaacacgtgcaaaagacca aaacgagagtttagatgaagagatgttctacaaacttaccagtggttgggtgtgaatagaaatactgtttaatgaaactccacgg ccataa 217 209210 aaaatgctattagtccgtcgtgcttnatttgtttttgtccttgaataagcatgttatgtatatngtctcgtgtttttatttttac _s_at accatattgtattacacttttagtattcaccagcataancactgtctgcctaaaatatgcaactctttgcattacaatatg aagtaaagttctatgaagtatgcattttgtgtaactaatgtaaaaacacaaattttataaaattgtacagttttttaaaaac tactcacaactaggagatggcttaaatgtagcaatctctgcgttaattaaatgcctttaagagatataattaacgtgcagttt taatatctactaaattaagaatgacttcattatgatcatgatttgccacaatgtccttaactctaatgcctggactggcc atgttctagtctgttgcgctgttacaatctgtattggtgctagtcagaaaattcctagctca catagcccaaaagggtgcgagggagaggtggattaccagtattgttcaataatccatggttca 218 209283 gaccagttcttcggagagcacctgttggagtctgatcttttcccgacgtctacttccctgagtcccttctaccttcggccaccctc _at cttcctgcgggcacccagctggtttgacactggactctcagagatgcgcctggagaaggacaggttctctgtcaacctggatgtg aagcacttctccccagaggaactcaaagttaaggtgttgggagatgtgattgaggtgcatggaaaacatgaagagcgccaggat gaacatggtttcatctccagggagttccacaggaaataccggatcccagctgatgtagaccctctcaccattacttcatccctgtc atctgatggggtcctcactgtgaatggaccaaggaaacaggtctctggccctgagcgcaccattcccatcacccgtgaaaagaagcc tgctgtcaccgcagcccccaagaaaaagatgccctttcttgaattgcattttttaaaacaagaaagtttccccaccagtgaatgaa 219 209301 tgaatcttcgggtgtttccctttagctaagcacagatctaccttggtgatttggaccctggttgctttgtgtctagttttctagacc _at cttcatctcttacttgatagacttactaataaaatgtgaagactagaccaattgtcatgcttgacacaactgctgtggctggttg gtgctttgtttatggtagtagtttttctgtaacacagaatataggataagaaataagaataaagtaccttgactttgttca cagcatgtagggtgatgagcactcacaattgttgactaaa 220 209312 ctgtgtatccttcaaagacccagcccctgcagcaccataacctcctggtctgttctgtgagtggtttctatccaggcagcattgaa _x_at gtcaggtggttccggaatggccaggaagagaagactggggtggtgtccacaggcctgatccacaatggagactggaccttccag accctggtgatgctggaaacagttcctcggagtggagaggtttacacctgccaagtggagcacccaagcgtgacaagccctctc acagtggaatggagagcacggtctgaatctgcacagagcaagatgctgagtggagtcgggggctttgtgctggg cctgctcttccttggggccgggctgttcatctacttcaggaatcagaaaggacactctggacttcagcca 221 209335 agtcaaatgccaaacactagctctgtattaatccccatcattactggtaaagcctcatttgaatgtgtgaattcaatacaggctat _at gtaaaattatactaatgtcattattttgaaaaaataaatttaaaaatacattcaaaattannannnnanacaagcttaattg ttaatattccctaaacacaattttatgaagggagaagacattggtttgttgacaataacagtacatcttttcaagttctcagcta tttcttctacctctccctatcttacatttgagtatggtaacttatgtcatctatgttgaatgtaagcttataaagcacaaa gcatacatttcctgactggtctagagaactgatgtttcaatttacccctctgctaaataaa 222 209357 ggcaaactgcttaatcttgtggattttgtagatggtttcaaatgactgaactgcattcagatttacgagtgaaaggaaaaattgca _at ttagttggttgcatgaactttgaagggcagatattactgcacaaactgccatctcgcttcatttttttaactatgcatttga gtacagactaatttttaaaatatgctaaactggaagattaaacagatgtggcccaaactgttctggatcaggaaagtcata ctgttcactttcaagttggctgtcccccccgccgcccccccccacccccatatgtacagatgataatagggtgtggaat gtcgtcagtggcaaacatttcacagattattttgtttctgtcttcaacatttttgacactgtgctaat 223 209373 ctcctccatgagtctgacatctcggaaactgagcagctgccggacgcctgggtcaggaatccaagaccccacctcttaaggactgg _at ttcctcagaaagcaccctcagggaaaaaggtgaaaacattacatccgtggattctcctgccacaaccgcattggaagaaaaggct gccgcaacatctcagcgaggagtgaaggacccatgtcccaggaaccgcgctgcgccacctgcactcacccccctcacattctc ttaagcacccggtggccctccgaggcctggcggaatggtggtgcccacggggttgggcaagggctcaccaggacctcaacgg gcaaagttgtgcacactaaaatatcaaatcaaggtgcttggttttaaagtaaatgatttctaaagaaagctgtgttcttc tgttgacccagacgaatagggcacagccctgtaactgcacgtgccttctgtcattgggaatg 224 209374 caccatcacgtgcctggtgacgggcttctctcccgcggacgtcttcgtgcagtggatgcagagggggcagcccttgtccccgga _s_at gaagtatgtgaccagcgccccaatgcctgagccccaggccccaggccggtacttcgcccacagcatcctgaccgtgtccgaag aggaatggaacacgggggagacctacacctgcgtggtggcccatgaggccctgcccaacagggtcaccgagaggaccgtggac aagtccacc 225 209436 ttcttttttatattgtcctccacctccatcattttcaataaaagatagggcttttgctcccttgttcttggagggaccattattac _at atctctgaactacctttgtatccaacatgttttaaatccttaaatgaattgctttctcccaaaaaaagcacaatataaagaaac acaagatttaattatttttctacttggggggaaaaaangtcctcatgtagaagcacccacttttgcaatgttgttctaagctatc tatctanctctcagcccatgataaagttccttaagctggtgattcctaatcaaggacaagccaccctagtgtctcatgtttg tat 226 209457 ggaagcacaatttccaccttattttttgaactttggcagtttcaatgtctgtctctgttgcttcggggcataagctgatcaccgtc _at tagttgggaaagtaaccctacagggtttgtagggacatgatcagcatcctgatttgaaccctgaaatgttgtgtagacaccctct tgggtccaatgaggtagttggttgaagtagcaagatgttggcttttctggattttttttgccatgggttcttcactgacttggc actttggcatgattcttagtcatacttgaacttgtctcattccacctcttctcagagcaactcttcctttgggaaaagagtt cttcagatcatagaccaaaaaagtcataccttcgaggtggtagcagtagattccaggaggagaagggtacttgctaggtatcct gggtcagtggcggtgcaaactggtttcctcagctgcctgtccttctgtgtgcttatgtctcttgtgacaattgttttcctccct 227 209458 agagaacccaccatggtgctgtctcctgccgacaagaccaacgtcaaggccgcctggggtaaggtcggcgcgcacgctggcgagt _x_at atggtgcggaggccctggagaggatgttcctgtccttccccaccaccaagacctacttcccgcacttcgacctgagccacggc tctgcccaggttaagggccacggcaagaaggtggccgacgcgctgaccaacgccgtggcgcacgtggacgacatgcccaacg cgctgtccgccctgagcgacctgcacgcgcacaagcttcgggtggacccggtcaacttcaagctcctaagccactgcctg ctggtgaccctggccgcccacctccccgccgagttcacccctgcggtgcacgcctccctggacaagttcctggcttctgtg agcaccgtgctgacctccaaataccgttaagctg 228 209496 tggaggaatttcacaagcacccgcccgtgcagtgggccttccaggagaccagtgtggagagcgccgtggacacgcccttcccagctg _at gaatatttgtgaggctggaatttaagctgcagcagacaagctgccggaagagggactggaagaaacccgagtgcaaagtcaggccc aatgggaggaaacggaaatgcctggcctgcatcaaactgggctctgaggacaaagttctgggccggttggtccactgccccata gagacccaagttctgcgggaggctgaggagcaccaggagacccagtgcctcagggtgcagcgggctggtgaggacccccac agcttctacttccctggacagttcgccttctccaaggccctgccccgcagctaagccagcactgagctgcgtggtgcctc caggaccgctgccggtggtaaccagtggaagaccccagcccccagggagaggaccccgttctatccccagccatgataata 229 209498 tttgtcaggaaaccttggcctctgctaaggtgtatttggtccttgagaagtgggagcaccctacagggacactatcactcatgctg _at gtggcattgtttacagctagaaagctgcactggtgctaatgccccttggggaaatggggctgtgaggaggaggattataactta ggcctagcctcttttaacagcctctgaaatttatcttttcttctatggggtctataaatgtatcttataataaaaagg aaggacaggaggaagacaggcaaatgtacttctcacccagtcttctacacagatggaatctctttggggctaaga gaaaggttttattctatattgcttacctgatctcatgttaggcctaagaggctttctccaggaggattagcttggag ttctctatactcaggtacctctttcagggttttctaaccctgacacggactgtgcatactttccc 230 209612 actggatgcgttaataacccatgttttaccttttgaaaaaataaatgaaggatttgacctgcttcactctgggaaaagtatccgt _s_at accgtcctgacgttttgaggcaatagagatgccttcccctgtagcagtcttcagcctcctctaccctacaagatctggagcaac agctaggaaatatcattaattcagctcttcagagatgttatcaataaattacacatgggggctttccaaagaaatggaaattg atgggaaattatttttcaggaaaatttaaaattcaagtgagaagtaaataaagtgttgaacatcagctggggaattgaagccaa caaaccttccttcttaaccattctactgtgtcacctttgccattgaggaaaaatattcctgtgacttcttgcatttttggtatc ttcataatctttagtcatcgaatcccagtggaggggacccttttacttgccctgaa catacacatgctgggccattgtgattgaagtcttctaactctgtctcagt 231 209613 gcagatttcttgcttcatatgacaaagcctcaattactaattgtaaaaactgaactattcccagaatcatgttcaaaaaatctgta _s_at atttttgctgatcgaaagtgcttcattgactaaacagtattagtttgtggctataaatgattatttagatgatgactgaaaatgt gtataaagtaattaaaagtaatatggtggctttaagtgtagagatgggatggcaaatgctgtgaatgcagaatgtaaaattgg taactaagaaatggcacaaacaccttaagcaatatattttcctagtagatatatatatacacatacatatatacacatatacaa atgtatatttttgcaaaattgttttcaatctagaacttttctattaactaccatgtcttaaaatcaagtctataatcctagcatt agtttaatattttgaatatgtaaacacctgtgttaatgctttgttaatgcttttcccactctcatttgtta atgctttcccactctcgggaaggatttgcattttgagctttatctctaaatgtgacatgca 232 209621 ggatgccgctctgtgacaaatgtggcagtggcatagtcggtgctgtggtgaaggcgcgggataagtaccggcaccctgagtgctt _s_at cgtgtgtgccgactgcaacctcaacctcaagcaaaagggctacttcttcatagaaggggagctgtactgcgaaacccacgcaag agcccgcacaaaacccccaagaggctatgacacggtcactctgtatcccaaagcttaagtctctgcaggcgtggcacacg cacgcacccacccacgcgcacttacacgagaagacattcatggctttgggcagaaggattgtgcagattgtcaactccaaa tctaaagtcaaggctttagacctttatcctattgtttattgaggaaaaggaatgggaggcaaatgcctgctatgtgaaaaa aacatacacttagctatgttttgcaactctttttggggctag 233 209651 ttcctgaagctcttcggctgacagcccgctcggctcgccctctcccccggaggccgcgccctcccggaaaagccgggtcctccag _at accccgaggccttgctctcagagcgggaggccccacccactggagagccccgcccctaaggtactatgagttctcaggggtcaa gttcagaaacggcccagccagacctaaacccacacgcccacaaagtggattgcacacagacaagaactcccgtgcgggcct ccactctattcccacccttgagggagcccccttactgggggagggtccttgcaattccagcgaatcggaggccag gccaggacgtccttgctccctgcaccctcactgttctgtgcactttttctacctacataaacacacgcatt 234 209656 gcagggctagttattccgatttcttgcacaattatttagctttttgtaagttcaacatgtaaattttaaagacataaatatagagag _s_at acttatgtgtttgaatataaatgatatatatggattagcatgtacctgtatattattaaacatgcaatgaactgactggtaagtga cgtctaattgtatggctagcaatgtaatttattcagactgtatttttgtacagagcagtgcactctaacctatgcctctgtgtcc tctttaatgcctaaagctgtgcctagaaatttcatctgtcttaaaagtaaaatataattcatgctgtttatgctattagtttctgt actgctattctatatttattatttttaaatatatgacatgtttactacttaaacatgaattcatggtatcctggttatttttttta agtcatctgggggaaaacctgtttatcactccagtgattttgagtttgcagtttcacaatcagttcttcat 235 209667 caggccttttccactttgagggaggtgcttcgaagaatgttgcccacacctaagtgttagaagcctatgtccgttcatccctga _at gaggtctgaa 236 209668 tggcggactccatgtttgtgatccctgcactccaagtagcacattttcagtgttcccgggcccctgtgtacttctacgagttccag _x_at catcagcccagctggctcaagaacatcaggccaccgcacatgaaggcagaccatggtgatgagcttccttttgttttcagaagtt tctttgggggcaactacattaaattcactgaggaagaggagcagctaagcaggaagatgatgaagtactgggccaactttgcgag aaatgggaacccgaatggcgagggtctgccacactggccgctgttcgaccaggaggagcaatacctgcagctgaacctacagcct gcggtgggccgggctctgaaggcccacaggctccagttctggaagaaggcgctgccccaaaagatccaggagctcgaggagcctga agagagacacacagagctgtagctccctgtgccggggaggagggggtgggttcgctgacaggcgagggtcagcctgctgtg 237 209687 gagagctcgctttgagtgactgggttttgtgattgcctctgaagcctatgtatgccatggaggcactaacaaactctgaggtttc _at cgaaatcagaagcgaaaaaatcagtgaataaaccatcatcttgccactaccccctcctgaagccacagcagggtttcaggttcc aatcagaactgttggcaaggtgacatttccatgcataaatgcgatccacagaaggtcctggtggtatttgtaactttttgcaag gcatttttttatatatatttttgtgcacatttttttttacgtttctttagaaaacaaatgtatttcaaaatatatttatagtc gaacaattcatatatttgaagtggagccatatgaatgtcagtagtttatacttctctattatctcaaactactggcaatttgta aagaaatatatatgatatataaatgtgattgcagcttttcaatgttagccacagt 238 209735 tgtggtttctgtagcaacacttctcatgaccatctgttttgtgtttatgatgattttttcaggtctgttggtcaatctcacaacc _at attgcatcttggctgtcatggcttcagtacttcagcattccacgatatggatttacggctttgcagcataatgaatttttggga caaaacttctgcccaggactcaatgcaacaggaaacaatccttgtaactatgcaacatgtactggcgaagaatatttggtaaag cagggcatcgatctctcaccctggggcttgtggaagaatcacgtggccttggcttgtatgattgttattttcctcacaattg cctacctgaaattgttatttcttaaaaaatattcttaaatttccccttaattcagtatgatttatcctcacataaaaaagaa ggcactttgattgaagtattcaatcaagtttttttttgttttctgttcccttgccatcacactgttgcacagca 239 209763 gaacacgcagagagtttccctagatatactcctgcctccaggtgctgggacacacctttgcaaaatgctgtgggaagcaggagctg _at gggagctgtgttaagtcaaagtagaaaccctccagtgtttggtgttgtgtagagaataggacatagggtaaagaggccaagctgcc tgtagttagtagagaagaatggatgtggttcttcttgtgtatttatttgtatcataaacacttggaacaacaaagaccataagc atcatttagcagttgtagccattttctagttaactcatgtaaacaagtaagagtaacataacagtattaccctt tcactgttctcacaggacatgtacctaattatggtacttatttatgtagtcactgtatttctggattttt 240 209791 ctccagccccagagctgaaaacaccaagtgcctatttgagggtgtctgtctggagacttagagtttgtcatgtgtgtgtgtgtnn _at ttggttaatgtgggtttatgggttttctttctttttttttttttttttttnnagtctacattagggggaagtgagcgcctccc atgtgcagacagtgtgtctttatagatttttctaaggctttccccaatgatgtcggtaatttctgatgtttctgaagttccca ggactcacacacccgttcccatctcacttgcccacccagtgtgacaaccctcggtgtggatatacccccgtggactcatggct cttccccacccccactttctataaatgtaggcctagaatacgcttctctgttgcaaaactcagctaagttc ctgcttccaccttgatgttgaaatatcttatgtaagagggcaggggatgtcgtgaagatggc 241 209868 ggaatgacacttacttacgacccaactacagctgctatacagaacggattttatccttcaccatacagtattgctacaaaccgaat _s_at gatcactcaaacttctattacaccctatattgcatctcctgtatctgcctaccaggtgcaaagtccttcgtgga tgcaacctcaaccatatattctacagcaccctggtgccgtgttaactccctcaatgga gcacaccatgtcactacagcccgcatcaatgatcagccctctggcccagcagatgagtcatctg tcactaggcagcaccggaacatacatgcctgcaacgtcagctatgcaaggagcctacttgccacagtatg 242 209948 ggaacgaaaccagcgtcctattccagcgcctctacgggccccaggccctcctcttctccctcttctggcccaccttcctgctga _at ccggtggcctcctcattatcgccatggtgaagagcaaccagtacctgtccatcctggcggcccagaagtagagccatcca tccatgccataccacttgtcagggcacaggggactggctgggcccccagggctgctccccacttgcagcacaatgccttctcca cctgccctcccactcttccagtccaatccacgctgtcttctgttgcaggactaacctttgagaaatccttttgtgaagtcattg cctgctcaagaatgtacagtggctccccaatgccttggagccataaggccagccagttctagctctctatta cctgtccccactcaactgactcatacctgtttccggctgcatcactatgtgcccca cagagaacgatgatcgtcacctctgtgcctgagttctccctgttgtctcaaagcggtacc 243 210084 ccggtcagcaggatcatcgtgcacccacagttctacatcatccagactggagcggatatcgccctgctggagctggaggagcccg _x_at tgaacatctccagccgcgtccacacggtcatgctgccccctgcctcggagaccttccccccggggatgccgtgctgggtca ctggctggggcgatgtggacaatgatgagcccctcccaccgccatttcccctgaagcaggtgaaggtccccataatggaaa accacatttgtgacgcaaaataccaccttggcgcctacacgggagacgacgtccgcatcatccgtgacgacatgctgtgtgcc gggaacacccggagggactcatgccagggcgactctggagggcccctggtgtgcaaggtgaatggcacctggctacaggcg ggcgtggtcagctgggacgagggctgtgcccagcccaaccggcctggcatctacacccgtgtcacctactacttggactgga tccaccactatgtccccaaaaagccgtgagtcaggcctggggtgt 244 210107 ggccaaatcaccgacctgaaggcggaaattcacgggggcagtctcattaatctgacttggacagctcctggggatgattatgacc _at atggaacagctcacaagtatatcattcgaataagtacaagtattcttgatctca gagacaagttcaatgaatctcttcaagtgaatactactgctctcatcccaaaggaagccaactctgaggaagt ctttttgtttaaaccagaaaacattacttttgaaaatggcacagatcttttcattgctattcaggctgttgataaggtcgat ctgaaatcagaaatatccaacattgcacgagtatctttgtttattcctccacagactccgccaga gacacctagtcctgatgaaacgtctgctccttgtcctaatattcatatcaacagcaccattcctggcattcacat tttaaaaattatgtggaagtggataggagaactgcagctgtcaatagcctagggc 245 210133 accccttcagcgactagagagctacaggagaatcaccagtggcaaatgtccccagaaagctgtgatcttcaagaccaaactggc _at caaggatatctgtgccgaccccaagaagaagtgggtgcaggattccatgaagtatctg gaccaaaaatctccaactccaaagccataaataatcaccatttttgaaaccaaaccagagcct gagtgttgcctaatttgttttcccttcttacaatgcattctgaggtaacctcattatcagtccaaagggcatgggttttatta tatatatatatattnttttaaaaaaaaacgtattgcatttaatttattgaggctttaaaacttatcctccatgaatatc agttatttttaaactgtaaagctttgtgcagattctttaccccctgggagccccaattcgatcccct gtcacgtgtgggcaatgttccccc 246 210139 tgtgaagctttacgcgcacacggacaaaatgcccaaactggagcccttgcaaaaacacggcttgtggcattggcatacttgccct _s_at tacaggtggagtatcttcgtcacacatctaaatgagaaatcagtgacaacaagtctttga aatggtgctatggatttaccattccttattatcactaatcatctaaacaactcactggaaatccaattaa caattttacaacataagatagaatggagacctgaataattctgtgtaatataaatggtttataactgattttgtacctagcta ggctgctattattactataatgagtaaatcataaagccttcatcactcccacatttttcttacggtcg gagcatcagaacaagcgtctagactccttgggaccgtgagttcctagagcttggctgggtctaggctgtt ctgtgcctccaaggactgtctggcaatgacttgtattggccaccaactgtagatgtatatatggtgcccttctgatgctaa gactccagaccttttgt 247 210298 tctactgcgtgacttgccatgagaccaagtttgccaagcattgcgtgaagtgcaacaaggccatcacatctggaggaatcactt _x_at accaggatcagccctggcatgccgattgctttgtgtgtgttacctgctctaagaagctggctgggca gcgtttcaccgctgtggaggaccagtattactgcgtggattgctacaagaactttgtggccaa gaagtgtgctggatgcaagaaccccatcactgggaaaaggactgtgtcaagagtgagccgcccagtctctaaagctaggaag cccccagtgtgccacgggaaacgcttgcctctcaccctgtttcccagcgccaacctccggggc aggcatccgggtggagagaggacttgtccctcgtgggtggtggttctttatagaaaaaatcg aagcttagcagctcctcgtggcccgggtttggtaaaggctccagtgtggtggcctatgaaggacaatcctggcacgactac tgcttccactgcaaaaaatgctccgtgaatctggccaacaagcgctttgttttccacc 248 210299 gcataggagataaaacccccactgagatgctctcatgcctcagctggacccaccgtgtagacacacgacatgcaagagttgcag _s_at cggctgatccaactcactgctcaccctctctgtgagcagaaagaaccctactgacatgcatggttaacttcctcatcag aactctgcccttcccttctgttcttttgtgctttcaaataactaacacgaacttccagaaaattaacatttgaacttagctgta attctaaactgacctttccccgtactaacgtttggtttccccgtgtggcatgcttttctgagccttcctactttaaagcat ggaacatgcaggtgatttgggaagtgtagaaagacctgagaaaacgagcctgtttcagaggaacatcgtcacaacgaatacttc tggaagcttaacaaaactaaccctgctgtcctt 249 210302 atttcgttttgcttttggttgcctgaatgttgtcaccaagtgaaaaaattatttaactatatgtaaaatttctcttttaaaaaa _s_at aagttttactgatgttaaacgttctcagtgccaatgtcagactgtgctcctccctctcctgaacctctaccctcaccctga gctgtcttgttgaaaacagt 250 210495 agccctttgatctggaggaagttctccagcttcagctcaactcacagcttctccaagcatcaccctgggagtttcctgagggtttt _x_at ctcataaatgagggctgcacattgcctgttctgcttcgaagtattcaataccgctcagtattttaaatg aagtgattctaagatttggtttgggatcaataggaaagcatatgcagccaaccaagatgcaa atgttttgaaatgatatgaccaaaattttaagtaggaaagtcacccaaacacttctgctttcacttaagtgtctggcccgcaat actgtaggaacaagcatgatcttgttactgtgatattttaaatatccacagtactcactttttccaaatgatcctagtaatt gcctagaaatatctttctcttacctgttatttatcaatttttcccagtatttttatacggaaaaaattgtattgaaaacactta gtatgcagttgataagaggaatttggtataattatggtgggtgattattttttatactgtatgtgccaaagctttactactgtg 251 210517 gtgccatagtgcaggcttggggagctttaagcctcagttatataacccacgaaaaacagagcctcctagatgtaacattcctgatc _s_at aaggtacaattctttaaaattcactaatgattgaggtccatatttagtggtactctgaaattggtcactttcctattacacgg agtgtgctaaaactaaaaagcattttgaactcatacagaatgttctattgtcattgggaaatttttctttctaacccagtggagg ttagaaagaagttatattctggtagcaaattaactttacatcctttttcctacttgttatggttgtttggaccgataagt gtgcttaatcctgaggcaaagtagtgaatatgattatatgttatgaagaaaagaattgttgtaagtttttgattctactcttata tgctggactgcattcacacatggcatgaaataagtcaggttctttacaaatggtattttgatagatactggattgtgtttgtgcca tatttgtgccatt 252 210524 gtcaggactgttatggccctgttgtgctgagttagttggaacagaattcaagctccctgcactagtccacctgccccactgcttc _x_at ttcgcttctctcttggaaagtccagtctctcctcggcttgcaatggaccccaactgctcctgcgccgctggtgtctcctgcacctg cgctggttcctgcaagtgcaaagagtgcaaatgcacctcctgcaagaagagctgctgctcctgctgccccgtgggctgtagca agtgtgcccagggctgtgtttgcaaaggggcgtcagagaagtgcagctgctgcgactgatgccaggacaacctttacccagat gtaaacagagagacatgtacaaacctggattttttttttataccaccttgacccatttgctacattccttttcctgtgaaa 253 210735 caggaaggaccttgctttggaccctacacacttcggctctctggacacttgcgacacctcaaggtgttctctgtagctcaatct _s_at gcaaacatgccaggcctcagggatcctctgctgggtgcctccttgccttgggaccatggccaccccagagccatccgatcgat ggatgggatgcactctcagaccaagcagcaggaattcaaagctgcttgctgtaactgtgtgagattgtgaagtggtctgaattc tggaatcacaaaccaagccatgctggtgggccattaatggttggaaaacactttcatccggggctttgccagagcgtgctttcaa gtgtcctggaaagtctgctgcttctccaagctttcagacaagaatgtgcactctctgcttaggttttgcttgggaaactcaact tctttcctctggagacggggcatctccctctgatttccttctgctatgacaaaacctttaatctgcaccttacaactcggggacaa 254 210764 ttaccaatgacaaccctgagtgccgccttgtgaaagaaacccggatttgtgaggtgcggccttgtggacagccagtgtacagca s_at gcctgaaaaagggcaagaaatgcagcaagaccaagaaatcccccgaaccagtcaggtttacttacgctggatgtttgagtgtga agaaataccggcccaagtactgcggttcctgcgtggacggccgatgctgcacgccccagctgaccaggacatgtgaagatgcg gttccgctgcgaagatggggagacattttccaagaacgtcatgatgatccagtcctcaaatgcaactacaactgcccgcatgc caatgaagcagcgtttcccttctacaggctgttcaatgacattcacaaatttagggactaaatgctacctgggtttccaggg cacacctagacaaacaagggagaagagtgtcagaatcagaatcatggagaaaatgggcgggggtggtgtgggtgatgggactc attgtagaaaggaagccttgctcattcttgaggagcattaaggtatttcgaaactgccaagggtgc 255 210809 aaattgtggagttagcctcctgtggagttagcctcctgtggtaaaggaattgaagaaaatataacaccttacaccctttttcatc _s_at ttgacattaaaagttctggctaactttggaatccattagagaaaaatccttgtcaccagattcattacaattcaaatcgaagag ttgtgaactgttatcccattgaaaagaccgagccttgtatgtatgttatggatacataaaatgcacgcaagccattatctctcca tgggaagctaagttataaaaataggtgcttggtgtacaaaactttttatatcaaaaggctttgcacatttctatatgagt gggtttactggtaaattatgttattttttacaactaattttgtactctcagaatgtttgtcatatgcttcttgcaatgc 256 210946 aaggcaagaggatgcatctttcttcctggtgtacaagcctttaaagacttctgctgctgatatgcctcttggatgcacactttgt _at gtgtacatagttacctttaactcagtggttatctaatagctctaaactcattaaaaaaactccaagccttccaccaaaacagtgcc ccacctgtatacatttttattaaaaaaatgtaatgcttatgtataaacatgtatgtaatatgctttctatgaatgatgtttg 257 210982 gaaggagacggtctggcggcttgaagaatttggacgatttgccagctttgaggctcaaggtgcattggccaacatagctgtggac _s_at aaagccaacttggaaatcatgacaaagcgctccaactatactccgatcaccaatgacaagttcaccccaccagtggtcaatgt cacgtggcttcgaaatggaaaacctgtcaccacaggagtgtcagagacagtcttcctgcccagggaagaccaccttttccgc aagttccactatctccccttcctgccctcaactgaggacgtttacgactgcagggtggagcactggggcttggatga gcctcttctcaagcactgggagtttgatgctccaagccctctcccagagactacagagaacgtggtgtgtgccctgggcctgac tgtgggtctggtgggcatcattattgggaccatc 258 211161 aatattggatatcaactgcttgtaaaggtgctcctcctttttcttgtcattgctggtcaagattactaatatttgggaaggctt _s_at taaagacgcatgttatggtgctaatgtactttcacttttaaactctagatcagaattgttgacttgcattca gaacataaatgcacaaaatctgtacatgtctcccatcagaaagattcattggcatgccacaggggat tctcctccttcatcctgtaaaggtcaacaataaaaaccaaattatggggctgcttttgtcacactagcatagagaatgtgtt gaaatttaactttgtaagcttgtatgtggttgttgatcttttttttccttacagacacccataat 259 211372 atctcatacccgcaaattttaaccttgtcaacctctggggtattagtatgccctgacctgagtgaattcacccgtgacaaaac _s_at tgacgtgaagattcaatggtacaaggattctcttcttttggataaagacaatgagaaatttctaagtgtgagggggaccac tcacttactcgtacacgatgtggccctggaagatgctggctattaccgctgtgtcctgacatttgcccatgaaggcca gcaatacaacatcactaggagtattgagctacgcatcaagaaaaaaaaagaagagaccattcctgtgatcatttccccc ctcaagaccatatcagcttctctggggtcaagactgacaatcccgtgtaaggtgtttctgggaaccggcacacccttaacca ccatgctgtggtggacggccaatgacacccacatagagagcgccta 260 211538 agctcgaaagagtttgcaaccccatcatcagcaaactttaccaaggtggtcctggcggcggcagcggcggcggcggttcagg _s_at agcctccgggggacccaccatcgaagaagtggactaagcttgcactcaagtcagcgtaaacctcttt gcctttctctctctctctttttttttgtttgtttctttgaaatgtccttgtgccaagtacgagatctat tgttggaagtctttggtatatgcaaatgaaaggagaggtgcaacaacttagtttaattataaaagttccaaagtttgtttt ttaaaaacattattcgaggtttctctttaatgcattttgcgtgtttgctgacttgagcatttttgattagt tcgtgcatggagatttgtttgagatgagaaaccttaagtttgcacacctgttctgtagaagcttg 261 211548 gctttttttgttgtcagctatcttaagaatcattaaatacacctgctttgggtaaaactctttgcaagcagtaattaacacta _s_at gtaacagtgaaagcacaagatttccaaatcagtcgttttctcaaaaaaatatcgtataagtgactcatcc tgtctgctaactccagacctcccagcttgaagccaaatctttccatgtgagattgatatggatttccta gaagtactggaatgttgtcatatcttgccctattttaattctgctatagaaaacaattgccttcacttttaaggagtaattt gaatattaataactctggtctagattttcatataatgtattaaagacaaagtagtgaacatcaatgaacatctgatag agataaactgtaatcaggcataagcttgtttgtatgttctggcagtgactaatcagtaaatg atgtcggtttgcccagtatcacttatcttctg 262 211549 cgtgaacggcaaagtggcgctggtgaccggcgcggctcagggcataggcagagcctttgcagaggcgctgctgcttaagg _s_at gcgccaaggtagcgctggtggattggaatcttgaagcaggtgtacagtgtaaagctgccctggatgagca atttgaacctcagaagactctgttcatccagtgcgatgtggctgaccagcaacaactgagagacactt ttagaaaagttgtagaccactttggaagactggacattaggtcaataatgctggagtgaataatgagaaaaactgggaaa aaactctgcaaattaatttggtttctgttatcagtggaacctatcttggtttggattacatgagtaagca aaatggaggtgaaggcggcatcattatcaatatgtcatctttagcagcccacc attgattgccaatggattgataacactcattgaagatgatgctttaaatggtgctattatgaagatcacaacttctaag ggaattcattttcaagactatgatacaactccatttcaag 263 211596 gagtattacattggccttgggggacagaaaggaggaagttctgacttttcagggctaccttatttctactaaggacccagag _s_at caggcctgtccatgccattccttcgcacagatgaaactgagctgggactggaaaggacagcccttgacctgggtt ctgggtataatttgcacttttgagactggtagctaaccatcttatgagtgccaatgtgtcatttagtaaaacttaaat agaaacaaggtccttcaaatgttcctttggccaaaagctgaagggagttactgagaaaatagttaacaattactgtcaggt gtcatcactgttcaaaaggtaagcacatttagaattttgttcttgacagttaactgactaa tcttacttccacaaaatatgtgaatttgctgcttctgagaggca 264 211637 ggactggtgaagccttcggagaccctgtccctcacctgcagtgtctctggtggctccatcagtagttactactggagctgga _x_at tccggcagcccccagggaagggactggagtggattgggtatatcaattacagtgggagcaccaact ataacccctccctcaagagtcgagtcaccatatcagtagacacgtccaagaaccagttctcc ctgaagctgagctctgtgaccgctgcggacacggccgtgtattactgtgcgagaacgatttcggggggtcg 265 211643 aatagtgatgacgcagcttccagccaccctgtctgtgtctccaggggaaagagccaccctctcctgcagggccagtcagagt _x_at gttcgcagcaacttagcctggtaccagcaaaaacctggccaggctcccaggctcctcatctacggtgcatcc accagggccaatggtatcccagccaggttcagtggcagtgggtctgggacagagttcactctc accatcagcggcctgcagtctgacgattttgcagtttattactgtcaacactataataactggcctccgtggacgt 266 211644 aattgtgttgacgcagtctccaggcaccctgtctttgtctccaggggaaagagccaccctctcctgcagggccagtcaga _x_at gtattagcagcagtttcttagcctggtaccagcagaaagttggccaggctcccaggctcctcat ctatggtgcatccagcagggccactggcatcccagacaggttcagtggcagtgggtctgggacagac ttcactctcaccatcagcagactggagcctgaagattttgcagtgtattactgtcagcaatatggtagctcgc 267 211645 tcctccctgtctgcatctgtaggagacagagtcaccatcacttgccgggcaagtcagggcattagaaatgatttagcctggta _x_at tcagcagaaaccagggaaagcccctaagcgcctgatctatgctgcatccagtttgcaaagtgggg tcccatcaaggttcagcggcagtggatctgggacagaattcactctcacaatcagcagcctg cagcctgaagattttgcaacttattactgtctacagcataatagttacccttg 268 211671 gcagttgagtcgtcatcacttttcagtgatgggagagtagatggtgaaatttattagttaatatatcccagaaattagaaac _s_at cttaatatgtggacgtaatctccacagtcaaagaaggatggcacctaaaccaccagtgcccaaagtctgtg tgatgaactttctcttcatactttttttcacagttggctggatgaaattttctagactttctgttggtg tatcccccccctgtatagttaggatagcatttttgatttatgcatggaaacctgaaaaaaagtttacaagtgtatatcaga aaagggaagttgtgccttttatagctattactgtctggttttaacaatttcctttatatttagtgaactacgct tgctcattattcttacataattattattcaagttattgtacagctgtttaagatgggcagctagttcgtagctt tccca 269 211696 tgaggagaagtctgccgttactgccctgtggggcaaggtgaacgtggatgaagttggtggtgaggccctgggcaggctgctgg _x_at tggtctacccttggacccagaggttctttgagtcctttggggatctgtccactcctgatgctgttatgggcaaccctaag gtgaaggctcatggcaagaaagtgctcggtgcctttagtgatggcctggctcacctggacaacctcaagggcacctttg ccacactgagtgagctgcactgtgacaagctgcacgtggatcctgagaacttcaggctcctgggcaacgtgctggtctg tgtgccggcccatcactttggcaaagaattcacccaaccagtgcaggctgcctatcagaaagtggtggctgcgtggctaatg ccctggcccacaagtatcactaagctcgctttcttgctgtccaatttctattaaaggttcctttgttccctaagtccaactac taaactg 270 211699 agagaacccaccatggtgctgtctcctgacgacaagaccaacgtcaaggccgcctggggtaaggtcggcgcgcacgctggcgagta _x_at tggtgcggaggccctggagaggatgttcctgtccttccccaccaccaagacctacttcccgcactt cgacctgagccacggctctgcccaggttaagggccacggcaagaaggtggcc gacgcgctgaccaacgccgtggcgcacgtggacgacatgcccaacgcgctgtccgccctgagcgacctgcacgcgcacaagcttc gggtggacccggtcaacttcaagctcctaagccactgcctgctggtgaccctggccgcccacct ccccgccgagttcacccctgcggtgcacgcctccctggacaagttcctggcttctgtg agcaccgtgctgacctccaaataccgttaagctg 271 211719 gggagtttcctgagggttttctcataaatgagggctgcacattgcctgttctgcttcgaagtattcaataccgctcagtatttta _x_at aatgaagtgattctaagatttggtttgggatcaataggaaagcatatgcagccaaccaagatgcaaatgttt tgaaatgatatgaccaaaattttaagtaggaaagtcacccaaacacttctgctttcacttaa gtgtctggcccgcaatactgtaggaacaagcatgatcttgttactgtgatattttaaatatccacagtactcactttttccaaa tgatcctagtaattgcctagaaatatctttctcttacctgttatttatcaatttttcccagtatttttata cggaaaaaattgtattgaaaacacttagtatgcagttgataagaggaatttggtataattatggtgggtgatt attttttatactgtatgtgccaaagctttactactgtg 272 211745 tcctgccgacaagaccaacgtcaaggccgcctggggtaaggtcggcgcgcacgctggcgagtatggtgcggaggccctggaga _x_at ggatgttcctgtccttccccaccaccaagacctacttcccgcacttcgacctgagccacggctctgcccaggtta agggccacggcaagaaggtggccgacgcgctgaccaacgccgtggc gcacgtggacgacatgcccaacgcgctgtccgccctgagcgacctgcacgcgcacaagcttcgggtggacccggtcaacttc aagctcctaagccactgcctgctggtgaccctggccgcccacctccccgccgagttcacccctgcgg tgcacgcctccctggacaagttcctggcttctgtgagcaccgtgctgacctccaaata ccgttaagctggagcctcggtggc 273 211798 tacgcagactccgtgaagggccgattcaccatctccagagacaattccaagaacacgctgtatcttcaaatgaacagcctga _x_at gagccgaggacacggccgtattactgtgcaagagagacttgtgtgattggggccaaggtaccctggtcacc gtgtcgagaggtggcggtggctcgggcggtggtgggtcgggtggcggcggatctt ctgagctgactcaggaccctgctgtgtctgtggccttgggacagacagtcaggatcacatgccaaggagacagcctcaga agctattatgcaagctggtaccagcagaagccaggacaggcccctgtacttgtcatctatggtaaaaacaacc ggccctcagggatcccagaccgattctctggctccagctcaggaaacacagcttccttgacc atcactggggctcaggcggaagatgaggctgactattactgtaactcccgggacagcagtggtaaccatgtggtattcgg cggagggaccaagctgaccgtcctaggtgcggccgcagaacaaaaactcatctcagaagaggatctgaatggggccgcat 274 211813 ttgcacaagtttcctgggctggaccgtttcaacagagaggcttatttgactttatgctagaagatgaggcttctgggataggcc _x_at cagaagttcctgatgaccgcgacttcgagccctccctaggcccagtgtgccccttccgctgtcaatgccatcttcga gtggtccagtgttctgatttgggtctggacaaagtgccaaaggatcttccccctga cacaactctgctagacctgcaaaacaacaaaataaccgaaatcaaagatggagactttaagaacctgaagaaccttcacgt tgtctaccttcataacaacaatatctctgtagttggatcaagtgacttctgcccacctggacacaa caccaaaaaggcttcttattcgggtgtgagtcttttcagcaacccggtccagtactgggagatac agccatccaccttcagatgtgtctacgtgcgctctgccattcaactcggaaacta 275 211848 tgtccatacagagtgtgcattccctggcaggggctcctgctcacagcctcgcttttaaccttctggaacctgccaaacagtgc _s_at ccagaccaatattgatggtgtgccgttcaatgtcgcagaagggaaggaggtccttctagtagtccataatgag tcccagaatctttatggctacaactggtacaaagggcaaagggtgcatgccaacta tcgaattataggatatgtaaaaaatataagtcaagaaaatgccccagggcccgcacacaacggtcgagagacaatataccc caatggaaccctgctgatccagaacgtcacccacaatgacgcaggaatctataccctacacgttataa aagaaaatcttgtgaatgaagaagtaaccagacaattctacgtattctatgagtcagtacaagc aagttcacctgacctctcagctgggaccgctgtcagcatcatgattggagtactggctgggatggctctgatatagc 276 211889 tgcacagtactcctggcttatcaatggaacattccagcaaagcacacaagagctctttatccctaacatcactgtgaataat _x_at agtggatcctatacctgccacgccaataactcagtcactggctgcaacaggaccacagtcaagacgatcatag tcactgagagacagaatctcaccatgttgcccgggctggactcgaactcctgggct caagcaatcctcccatctgtttcccaaagtgctgagattacagataatgctctaccacaagaaaatggcctctcacctggg gccattgctggcattgtgattggagtagtggccctggttgctctgatagcagtagccctggcatgtttt ctgcatttcgggaagaccggcagggcaagcgaccagcgtgatctcacagagcacaaaccctcagtgtccaa ccacactcaggaccactccaatgacccacctaacaagatgaatgaagttacttattctaccctgaactttgaagccca 277 211896 tcctccttcccttacggaattacatcttgatggcaacaaaatcagcagagttgatgcagctagcctgaaaggactgaataa _s_at tttggctaagttgggattgagtttcaacagcatctctgctgttgacaatggctctctggccaacacgcctcatctgaggga gcttcacttggacaacaacaagcttaccagagtacctggtgggctggcagagcataagtacatccaggttgtctaccttcat 278 211959 tcacaccgtagcccacatggatagcacagttgtcagacaagattccttcagattccgagttgcctaccggttgttttcgtt _at gttgttgttgttgtttttctttttctttttttttttgaagacagcaataaccacagtacatattact gtagttctctatagttttacatacattcataccataactctgttctctcc 279 211964 cactttccaatgccacagacaactcacattgttcaactcccnttctcggggtgggacagacgagacaacagcacacaggcagcc _at agccgtggnnccagaggctcganggggctcaggggcntcanggcacccgtccccacacgn agggccccgtngggtgggncctnggccctngcttctacngccnaatgnttatgnccag ctccatgttctcccaaataccgttgatgtgaattattttaaaggcaaaacngtgctctttattttanaaaacactgataatca cactgcggtaggtcattcttttgccacatccctatagaccactgggtttggcaaaactcaggcagaagtgg aganccnttctagacatcantgtcagccttgctacttgaaggtacaccccatagggtcggag gtgctgtcccc 280 211985 gaggcaaatggatctcgatatttcagatgggcttttgatgcactgttgccaaggaaggctttttctgattttttgacaaatga _s_at atttttgcacactttcattggtgtctttcggcaacttacacacattgaaaat 281 211990 gaggacttaggagagatctgaactccagctgccctacaaactccntcncagcttttcttctcacttcatgtgaaaactactcc _at agtggctgactgaattgctgacccttcaagctctgtccttatccattacctcaaagcagtcattccttagtaaagtt tccaacaaatagaaattaatgacactttggtagcactaatatggagattatcctttcatt gagccttttatcctctgttctcctttgaagaacccctcac 282 211991 gcactgggaggcccaagagccaatccagatgcctgagacaacggagactgtgctctgtgccctgggcctggtgctgggccta _s_at gtnggcatcatcgtgggcaccgtcctcatcataaagtctctgcgttctg 283 212077 tgcagaagtcaaaccctcatgacaaagtaggcacaagtctacaataagctaaatcagaatttacaaatacaagtgtcccag _at gtagcattgactcccgtcattggagtgaaatggatcaaagtttgaattaaggcctatggtaaggtaacattgct ttgttgtacttttgaacaagagctcctcctgatcactattacatatttttctagaaaatct aaagttcagaagagaatgtatcactgctgacttttattccaatatttggatggagtaagttttagggtagaattgttcagt ttggatttaatcttttgaaaagtaaattccttgtttactggtttgactataattctctgttatctttacgaggta aaactgcaagctgactagcatgttctgtgaatctgccattcctaaaaattttataaacacttgatacttttc actgataatggatcgctcca 284 212091 tcacagcgggcaggacggaccccgcccacgacgtgcgggtggcggtggtgcagtacagcggcacgggccagcagcgcccag _s_at agcgggcgtcgctgcagttcctgcagaactacacggccctggccagtgccgtcgatgccatg gactttatcaacgacgccaccgacgtcaacgatgccctgggctatgtgacccgcttctac cgcgaggcctcgtccggcgctgccaagaagaggctgctgctcttctcagatggcaactcgcagggcgccacgcccgctgc catcgagaaggccgtgcaggnagnccagcgggcaggcatcgagatcttcgtggtggtcgtgggccgcca ggtgaatgagccccacatccgcgtcctggtcaccggcaagacggccgagtacgacgtggcctacggcgagagc cacctgttccgtgtccccagctaccaggccctgctccgcggtgtcttccaccagacagtctccaggaaggt 285 212097 gaatttcacctgtaaacctgagtcgtacagaaagctgcctggtatatccaaaangctttttattcctcctgctcatattgtgatt _at ctgccntttggggnacttttncttnaaaccttcagttatgatttttttttncatacacttattggnaactctgcttgatt tttgcctcttccagtcttcctgacactttaattaccaacctgttacctactttgactttttgcattta aaacagacactggcatggatatagttttacttttaaactgtgtacataactgaaaatgtgctatactgcatacttataaatgta aagatatttttatctttatatgaagaaaatcacttaggaaatggctttgtgattcaatctgtaaactgtgtat tccaagacatgtctgttctacatagatgcttagtccctcatgcaaatcaattactggtccaaaagattgct gaaattttatatgcttactgatatattttacaatttatatcatgcatgtcctgtaaaggttacaagcctgcacaataa 286 212136 tcttccccttgagcttcagagaggagagttggcatggttaaatctgaatggttacctcactgctgaaaacccagaggggcgt _at ggcacactcgcttgtgtggaaaagcctctaaatgcatcccttcctttctttcctgcttcctttgccttacaattgaagc agcccgtggtaccatcacagtatgcagagacttcctcacctttcatatctagggacc acccccgatgcattggtgagggtgggcacttataaatgcctgctattgttaagccattccagcctcttcctctgaataga ccagacgccctttcacttagttcagtgccagtcatttgccttcccaaccctgctgttaggcctgctgttcccttt gctcttgattaggagagatggaaggagatgagctcccataactgaattggcctttggttcatgttt tctccccatatgtatatatgccatatgtgaatatgccatatatatgtgccaacaaatctatctacgttgttcttttcaaa ttagcacgcagataggaattttgagtttcttcttctt 287 212158 tatgtaaactttaacttccactttgtataaatttttaagtgtcagactatccattttacacttgctttatttttcattacct _at gtagctttgggcagatttgcaacagcaaattaatgtgtaaaattggattattactacaaaaccgtttagtcatatctatc taatcagatcttcttttgggaggatttgatgtaagttactgacaagcctcagcaaacccaaagatg ttaacagtattttaagaagttgctgcagattcctttggccactgtatttgttaatttcttgcaatttgaaggtacgagta gaggtttaaagaaaaatcagtttttgttcttaaa aatgcatttaagttgtaaacgtctttttaagcctttgaagtgcctctgattctatgtaacttgttgcagactggtg 288 212185 cgccggctcctgcaaatgcaaagagtgcaaatgcacctcctgcaagaaaagctgctgctcctgctgccctgtgggctgtg _x_at ccaagtgtgcccagggctgcatctgcaaaggggcgtcggacaagtgcagctgctgcgcctgatg ctgggacagccccgctcccagatgtaaagaacgcgacttccacaaacctggattt 289 212192 caactgtttttgcgactttataggcaggtaaattttgctattactattgaatacaaatgacaattcatttatgaccactcaaa _at cagcgttagtaaccatttagtgacaaaggattaaaacatccatctggatgttaattttgaagatgtaaattatatgttgtt taaatttttccaggcatctgaaaaccttatctgctagacaatgtaagattcacacagag ttatctgggattctgattttttaaatagtacatatcattaaaccattttctctaaatgtaagaagagcagaaaaaatctta taagattatcagatttttctaatgacacagaaatgtaagaaaaaaatccctttatattgaaaaaagatgcagtcaaa gtcttttcagacatgcccaaactttgagaatttcttcaaccatctaatgctataaagatttttg ttcttcctgttcacaaccagttgtataacagaaatactagctactgttttccttc 290 212195 gatgggtcgtgtgatgagatgcatttaaggccgatagtgatagatgttttttttatttcttgaacacaggctttgtctgaatg _at atgttcttttatctcttgaacacaagctttgaatgataactacaggttttaagtgctgttacattaataccataat gtgatgtgttagaaacaaagggatatttcaaaggtagatatttgaaaattctctagtctcaatatgt atgtgtattgaatatactctaaaaataaatgtgcaatttgctagtaggacaatgcagtgactgactagcattaggtatgtt tcttttatatcctagctatgtcccactttcttctaagtgcaatcctttcatgttcacttgctgttttaccccatcta ctctaacttcatttggaaggcttgtctagagtatagcatgtatttttacctttgcagtgaattgcatgtgctaattgtaac cacagctatttttatgttgacataactccaaatgttatattaaatgttctattatatattagctctaatcccttaagtaaa 291 212224 acagtgttctctaatgttacagatgagatgcgcattgccaaagaggagatttttggaccagtgcagcaaatcatgaagtttaa _at atctttagatgacgtgatcaaaagagcaaacaatactttctatggcttatcagcaggagtgtttaccaaag acattgataaagccataacaatctcctctgctctgcaggcaggaacagtgtgggtgaatt gctatggcgtggtaagtgcccagtgcccctttggntgggattcaagatgtctggaaatggaagagaactgggagagtacggt ttccatgaatatacagaggtcaaaacagtcacagtgaaaatctctcagaag aactcataaagaaaatacaagagtggagagaagctcttcaatagctaagcatctccttacagtcactaatat 292 212230 caaggtcccactctaggtgatagacagggaccccttctactgaacctttgaggaaaggaggaaggaagaaatgcgtttagat _at cttggatgcagacctttcaaagggttaaatgtaaccatatggatcaaccacatgcacatccttactacag aatccgtcctttcatttcaacttatagcaagctatgatttttatatataaatattatataaataatgtataa aacattaaaagttaactatgtaagatattatttctgaaacaatttagctatatccactatgattataaactgtgtct cgacctgtgttatttacattagctgcttaaaaaagcattgagttaatttttttaaatatcaactaaaatatcatagtt ctgtggtagacattgttttataatgaaataactgcaactagagaaaactgtataaaaacattaaattgtcagtatttt tgtaaggttccattttgtaaagagaataatattcaaagacttttgtagcatacaaagtgaaaacttgtatctgcgaaacta 293 212233 aagcagcctagggatgagcatttctttgaaagcaattaggttattcacctggtattaaaactatttactgttaaaaaatctgtg _at acttcatgaagttgatttttaaaggcagcatcaaaaactgaaaaggnaagggaaaaaataggcagcttctct gcacttgtttggagctccccaaaacaggagccatggagaagtggcatcaagaccgg gctgccctttcgagaacaccctgtggcagttcagagacacgcttttcctacactgcatgcagcccctctttccagcactgga aagaagtggtcttgagcccagctgagaagcacttcacactcctctctcttgttctgaatggtgt ttgtgtcagtctgcagctgtgtatggtattatgtcttataatcctgcatcacttctatcctatccagtcatat 294 212265 gggtagatgggagtgtcgcttgtatgttatcgtacagctgacatgtatttttgtctattctttattatcttagtttcatgctatg _at tatgtaccataaccaacctattgcctatgagaaacatgtaagataatgtatttacagccattgttacaagtttataatgta tttttctatcttgttttatatgtatgttatataacattcaaaaagaatttttttcttgattgagaaaa ggatacaaaatgcaaaatccacaattttgataactgaaaattgccaattgttttgcagtactttattatattgggtgtcttgtc ttttttgggcttttagttagctaatgaatgaatacattagacacttttgggttttagttgggattttacat agcttgcattttaattctttggttctttgctgtttctattaacccacagcattatt 295 212288 gaaggttgtcatgggctgttccttgggggtttttatcctgctcaccgtggagataagcctgcggcttgtctaaccagcgcagcgc _at aaaggtctcaatgccttttggtaacatccgtcattgcagaagaaagtttacacgacgtcaaaaagtgacgttc atgctaagtgtttttccagaaatattggtttcatgtttcttattggctctgcctcctgtgcttatatcatcca aaaactattaaaaaggtccagaattctattttaacctgatgttgagcacctttaaaacgttcgtatgtgtgttgcactaattc taaactttggaggcattttgctgtgtgaggccgatcgccactgtaaaggtcctagagttgcctgtttgtctctggagat 296 212386 gagatttaccatgtatcagtgcctggctttgttataaagctttgtttgtctagtgctcttttgctataaaatagactgtagtac _at accctagtaggaaaaaaaaaaaactaaatttaaaaataaaaaatatatttggcttatttttcgcaggagcaatccttttatacc atgaatatt 297 212387 gtttatacaactgtcagtccacccagtggtgcaactggttctgattcagtcttccgatncctttttatttttcactttttcctat _at ttctgaattttttttttnatttgtgatcttgattttgatgaggggttggggagtggggagggagtcgaaccaagacttggagtta agaggattttcatcttttgcatccaacaggcagaatatgatctgtgtccaaaagtgaa cttgagtcaggaatgaatcaatttcagcataaacaagcacaaaaatttagtctgctggctgactggaagcaaaaaagtcaagat ggaatatgatgaattccaacacaatggggcaccaaggcctttaggcctctattttattttgctttgg ttttgtttgtttttctttagagacatgctctttctcatgggacttgaagtggactcatctttgtgcagtgctggtttt gccatactcatttcaagtattatagacatatgtaatggtgaaaatatatgaactgtggcctttttcattcttgttacttgtg 298 212397 gaagtgactgttgtaccatggttgtgcacatgcttcagaatcctatggaagagaatattcctacttgcagtacatcaaagga _at atggatggtggaccctactattcatgttttgagacataaatgttcactttaaagcaattgcataatagataaaa acctgaactttcattggatttttgttaattttcctcattttgaattatgtgcactaccatagctacat cagtttgatacagtattgaaaaattatcagttatattgctgtttatgatctatttgtagattaggattaaaatggatttaatcc atttttaaggctgtgtgaatttttctaaacaagaaccatttgcaatatggatttcttagagattaaaccaatta taacttattagcagtcgcgagcacatgttcatatagtcaatgtaaaaatacactaatgagtatttgg taaatcccagtaggcttttaccattagca 299 212414 tccctcacttctcttaagccaagaagtttgctttccctagctgcagtgtagatggctcttgtttttgtttttttgttttaatca _s_at tttggcattcacatgtggctgttaatatgtgcttgttttt 300 212419 tggtgggagggctctcaatcagcagggccccaggagggaagaagaagtggggcaaagcntggcctcgccgctcgggagctttgc _at catctgagccacgcctcctccaggccatgctccttgaacttggaaatgtcaaccggagcccttacacca gccctccagcatctaatagacttgaatctactctaaacgaatatttaatccaacc tcactacattgtagctcagtccaacgactaaccctgaaatgggggtgttccagccttcagcgagatggccaagcggtcccctg ggggctgtggcagcggncttatccttctctgttgccaaccttgccgtccgacctcctccgcccccatgcgg tgaccccgtccgtgtctgtgtctgtccatacgtgtgagtccagctaaaaagacaaaaca gaacccgtgggcccagctcggaaggtgcgtggagaaggctccgacgtctccgaagtgcagcccttgggatggcattccgttg tgtgccttattcctggagaatctgtatacggctcgcctatagaa 301 212464 cttctccaagcatcaccctgggagtttcctgagggtttctcataaatgagggctgcacattgcctgttctgcttcgaagtat _s_at tcaatanccgctcagtattttaaatgaagtgattctaagantttggtttgggatcaatanggaaagncatat gnncagnnccaanccaagatgcaaatgttttgaaatgatatgaccaaaattttaagtaggaa agtcancccaaacacttctgctttcacttaagtgtctggcccgcaatactgtaggaacaagcatgatcttgttactgtgat attttaaatatccacagtactcactttttccaaatgatcctagtaattgcct 302 212592 gtatcaaaatcttccaattatcatgctcacctgaaagaggtatgctctcttaggaatacagtttctagcattaaacaaataa _at acaaggggagaaaataaaactcaaggagtgaaaatcaggaggtgtaataaaatgttcctcgcattcc cccccgcntttttttttttttttgactttgccttggagagccagagcttccgcattttctttactattcttttt aaaaaaagtttcactgtgtagagaacatatatgcataaacataggtcaattatatgtctccattagaaaaataataattgg aaaacatgttctagaactagttacaaaaataatttaaggtgaaatctctaatattt ataaaagtagcaaaataaatgcataattaaaatatatttggacataacagactt 303 212667 caggaggacacagcattattctagtgctgtactgttccgtacggcagccactacccacatgtaactttttaagatttaaattta _at aattagttaacattcaaaacgcagctccccaatcacactagcaacatttcaagtgcttgagagccat gcatgattagtggttaccctattgaataggtcagaagtagaatcttttcatcatcacagaaagttct attggacagtgctcttctagatcatcataagactacagagcacttttcaaagctcatgcatgttcatcatgttagtgtcgtatt ttgagctggggtatgagactncccttagagatagagaaacagacccaagaaatgtgctcaattgcaatgggccacat acctagatctccagatgtcatttcccctctcttattttaagttatg 304 212671 accaatgaggttcctgaggtcacagtgtttccaagtctcccgtgacactgggtcagcccaacaccctcatctgtcttgtggaca _s_at acatctttcctcctgtggtcaacatcacntggctgagcaatgggcactcagtcacagaaggtgtttctg agaccagcttcctctccaagagtgatcattccttcttcaagatcagttacctcaccttcctccc ttctgntgatgagatttatgactgcaaggtggagcactggggcctggatgagcctcttctgaaacactgggagcctg 305 212713 cacatggttctagcctggacctggctgggctccatgagaatgagttgcctccaccctgtcccaacagctgacagccaggagcca _at ctctcccagctgcaggcctttgtggtccatcttgtcctgcttcctcactgtggacccctgtctggg ccaccctagtgtgctaagctgagcagtgcagtgtgaacagggcccatggtgtattctaggcca cagcccagcactcctctgggctgctctcaaaccatgtcccatcttcagcatccctcccaccaacttactcccctgtggtgagt accgtggaaccccagcccacctcactatcatactcagcttcccctgatggcccatcccagcccctgaagctn tatgccaagaacacagctaccgcacaccaccctgaaacagccacagccaaggta ggcatgcatatgaggtcttccccataccctctgggtgttgagaggtttagccacatgagggagcagaggacaatctctgca gggctgggagtgggtagggactgaaggtctcaat 306 212730 tcagtgtctgggctcatgacttgtaaatggaagctgatgtgaacaggtaattaatattatgacccacttctatttactttggga _at aatatcttggatcttaattatcatctgcaagtttcaagaagtattctgccaaaagtatttacaagtatggactcatgagctat tgttggttgctaaatgtgaatcacgcgggagtgagtgtgcccttcacactgtgac attgtgacattgtgacaagctccatgtcctttaaaatcagtcactctgcacacaagagaaatcaacttcgtggttggatggggc cggaacacaaccagtctttttgtatttattgttactgagacaaaacagtactcactgagtgtttt tcagtttcctactggtggttttgatattgtttgtttaagatgtatatttagaatgacatcatctaagaagctgat tttgctaaactcctgttccc 307 212741 gaactcatgtgatttacccttttcaactttttggaaaacgatttaatttattctaattagattaaccctattaatctatgga _at ttgggtatcaaaatgaatgccagtccagatgtgcctagacacgaaattggagctgaggactctcacgatat gcaagttcatccaacgtgaagataccataagctttttctctgaaccagagaaatgaaagtcagttta agaggctgatagatcttggccctgttaaggcatccacttcacagttctgaaggctgagtcagccccactccacagttaggc caagaattagattttaaaacttcatctgtctgtcccagttaactgttaaataaggcctcatcctccactgaagag tatggattgaaggattgtgaactatgtttagtgtgattgtgaacttggtgcctaatgttccat gtctgaagtttgccccagtgctacacgttggagta 308 212764 gatgcaattggttctcctgcattgagatttgatttaacagtgttatgttaacatttatacttgccttggactgtagaacaga _at acttaaatgggaatgtattagttttacaactacaatcaagtcattttacctttacccagtttttaatata aaacttaaattttgaaattcactgtgtgactaatagcatgatgctctgcagttttattaagaaatnagcctaacc atacaactctcatttccttagtaagccaaattaggattaacttctataaacagtgttgggaacaatgtttaacattttgtgc caatttgttcctgtattcatgtatgtaagttacagatctgactcttcatttttaagttccttgttacatcatggtcatt 309 212814 cctatcctacttgcccatatgagcacggctccccatggccacatactcctgcaaagcttttatgctgcttcgcttttctctaaa _at cagatctgatattgctgctcctgtggttttctcaaaattaactttgccgtggtttttaaaaaggaatca aaatgcattgttgcattaagctttttcaataaaggaaaattacggaaggaaaataggcaacaccagca aattatatgtggacaggttctaaactctatatatacatatatatatatatatctatatatctatatacgtaatcatctagttct gtcatcttactgaaaggaataacacttctaaagatcaccatttctgagaagttcttggaaatctttatgtctaa 310 212859 caccgcgcagagctcagggggtggtgcgccaggcccttctgcggcgcacagcccagcccaggaacgcgggcggtgcggactcag _x_at cgggccgggtgcaggcgcggagctgggcctctgcgcccggcccganctccgtctataaanagagcagccagt tgcagggctcnantctgctttccaactgcctgactgcttgttcgtctca ctggtgtgagctccagcatcccctttgctcgaaatggaccccaactgctcttgcgccactggntggctcctgcacgtgcgccgg ctcctgcaagtgcaaagagtgcaaatgcacctcctgcaagaagagctgctgttcctgctnccccgtggnctgt gccaagtgtgcccagggctgcgtctgcaaaggggcatcggagaagtgcagctgctgtgcctgatgtgggaacagc tcttctcccagatgtaaatagaacaacctgcacaacctggnatttttttaaaaatacaacactgagccatttgctgcatttc 311 212956 tactgatgcttctgatactggatgtttagcttcttactgcaaaaacataagtaaaacagtcaactttaccatttccgtattctc _at catagattgaagaaatttataccacatatcgcatatgaccatctttccatcaaatcaatgtagagataatgtaaactgaa aaaaaatctgcaagataatgtaactgaatgttttaaaaacagaacttgtcactttat ataaaagaatagtatgctctatttcctgaatggatgtggaaatgaaagctagcgcacctgcactttgaattcttgcttctttt ttattactgttatgattttgctttttacagatgttggacgattttttcttctgattgttgaattcataatcatggtctc atttcctttgcttctttggaatatttctttcaacacattcctttattttattatacattgtgtcctttttttagctattg ctgct 312 213068 gacaggagggtgtccacatatgttaacatcagttggatctcctatagaagtttctgctgctctctttccttctccctgagct _at ggtaactgcaatgccaacttcctgggcctttctgactagtatcacacttctaataaaatccacaa 313 213071 gctccacatgagccatgcatgcttagcaatccaagtgcagagctctttgctccaggagtgaggagactgggaggtgaaatggg _at gaaatggaagggtttggaggcagagctgaaaacagggttggaaggatttcctgaattagaagacaaacgt tagcatacccagtaaggaaaannngnnnaggggccanggggaacccgtg aggatcactctcaaatgagattaaaaacaaggaagcagagaatggtcagagaatgggattcagattgggaacttgtggggatg agagtgaccaggttgaactgggaagtggaaaaaggagtttgagtcactggcacctagaagcctgcccacga ttcctaggaaggctggcagacaccctggaaccctggggagctactggca aactctcctggattggncctnatnnttttggtgggaaaggctgccctggggatcaactttccttctgtgtgtggctcaggag ttcttctgcagagatggcgctatctttcctcctcctgtgatgtcctgctcccaaccatttgtactcttcatta 314 213317 aagtgtgcataatttcatttaacgttaaagaaatagatccaattcctttcttgcaaccaaaaataaataaaatacgttgcctcaa _at tataaggtttgggctattctgtgtttctatagaagcaatctgtttttggtaaaatgtactataaggatccagtcatctga agtattttatgtagagttagagatttcacaatattgactatacatatatttaaaatataa attatccagctgatgtttgaatttgtcttactttcctggccacctcgttgtcctattttataagctggggagttaactagcttaa caaaagatgcttagcttttgtaaaagaacaagtgtttcattttacaaagacactccaaatgatagttacttgattttctcga gacctttaactatggtgatgaataacaggacttgctttcaagccttaataaatgtaaa atgccttttaatgaagatacagctgagtgttttcctcatgaatctgaaccaattaccaatttgtgttccagtcttgatt 315 213428 gaaaccaaggtcaggaggccgttgcagacataaatctcggcgactcggccccgtctcctgagggtcctgctggtgaccggcctg _s_at gaccttggccctacagccctggaggccgctgctgaccagcactgaccccgacctcagagagtactcgc aggggcgctggctgcactcaagaccctcgagattaacggtgctaaccccgtctg ctcctccctcccgcagagactggggcctggactggacatgagagccccttggtgccacagagggctgtgtcttactagaaaca acgcaaacctctccttcctcagaatagtgatgtgttcgacgttttatcaaaggccccctttctatgtt catgttagttttgctccttctgtgtttttttctgaaccatatccatgttgctgacttttc 316 213451 cacaggcaggtgactactccatgcgcgtggacctgcgggctggggacgaggctgtgttcgcccagtacgactccttccacgta _x_at gactcggctgcggagtactaccgcctccacttggagggctaccacggcaccgcaggggactccatgagctaccaca gcggcagtgtcttctctgcccgtgatcgggaccccaacagcttgctcat ctcctgcgctgtctcctaccgaggggcctggtggtacaggaactgccactacgccaacctcaacgggctctacgggagcaca gtggaccatcagggagtgagctggtaccactggaagggcttcgagttctcggtgcccttcacggaaatga agctgagaccaagaaactttcgctccccagcggggggaggctgagctgctgccc acctctctcgcaccccagtatgactgccgagcactgaggggtcgccccgagagaagagccagggtccttcaccacccagcc gctggaggaagccttctctgccagcgatctcgcagcactgtgtttacag 317 213509 ccaatggcgagggtctgccacactggccgctgttcgaccaggaggagcaatacctgcagctgaacctacagcctgcggtgg _x_at gccgggctctgaaggcccacaggctccagttctggaagaaggcgctgccccaaaagatccaggagctcgag gagcctgaagagagacacacagagctgtagctccctgtgccggggagga gggggtgggttcgctgacaggcgagggtcagcctgctgtgcccacacacacccactaaggagaaagaagttgattccttc attcacttcgccattcattcatacttccgtccatccattcagaaagcatttattaagaatttactcaggcatg atggcccatacttgtaatcccagctattgggaaggatgagatgggaggatggcttgaggcc agaggtttgagaccgaccagcc 318 213624 gggagagtccatctggaagctggagtatatcctgacccagacctacgacattgaagatttgcagccggaaagtttatatg _at gattagctaaacaatttacaatcctagacagtaagcagtttataaaatactacaattacttctttgtgagt tatgacagcagtgtaacatgtgataagacatgtaaggcctttcagatttgtgcaattatgaatctt gataatatttcctatgcagattgcctcaaacagctttatataaagcacaattactagtatttcacagtttttgctaatag aaaatgctgattctgattctgagatcaatttgtgggaattttacataaatctttgttaattactgagtgggcaagtagac ttcctgtctttgctttctttttttttttctttttgatgccttaatgtagatatctttatcattctgaattgtatta tatatttaaantgctcattaatagaatgatggatgtaaattggatgtaaatattcagtttatataattatatctaatttg tacccttgttgaaattgtcattta 319 213629 cttcgcttctctcttggaaagtccagtctctcctcggcttgcaatggaccccaactgctcctgcgccgctggtgtctcct _x_at gcacctgcgctggttcctgcaagtgcaaagagtgcaaatgcacctcctgcaagaagagctgctgctcctngctnccccgt gggctgtagcaagtgtgcccagggctgtgtttgcaaaggggcgtcagagaagt gcagctgctgcgactgatgccaggacaacctttctcccagatgtaaacagagagacatgtacaaacctggattatttttt ataccaccttgacccatttgctacattccttttcctgtgaaa 320 213746 cctggggctgagcaaggcctacgtaggccagaagagcagcttcacagtagactgcagcaaagcaggcaacaacatgctg _s_at ctggtnggggttcatggcccnangaccccctgcgaggagnnnnngnngnagcacgtgggcagccggctntacagcgtg tcctacctgctcaaggacaagggggagtacacactggtggtcaaatggggg 321 213891 gaaactgtatgggtagcttttttgtttgttttttgttttgtttttgtttttgtttttgtttttagttgtaggtcgcagcgg _s_at ggaaattttttgcgactgtacacatagctgcagcattaaaaacttaaaaaaattgttaaaaaaanaaaaaaagggaaaacatt tcaaaaaaaaaaaaanngataaacagttacaccttgttttcaatgtgtggctgagtgcctc gattttttcatgtttttggtgtatttctgatttgtagaagtgtccaaacaggttgtgtgctggagttccttcaagacaaaaac aaacccagcttggtcaaggccattacctgtttcccatctgtagttattcg 322 213921 gctgctgccgcggggaagcaggaactggccaagtacttcttggcagagctgctgtctgaacccaaccagacggagaatgatgccc _at tggaacctgaagatctgtcccaggctgctgagcaggatgaaatgaggcttgagctgcagagatctgc taactcaaacccggctatggcaccccgagaacgcaaagctggctgcaagaatt tcttctggaagactttcacatcctgttagctttcttaactagtattgtccatatcagacctctgatccctcgcccccacacccc atctctcttccctaatcctccaagtcttcagcgagacccttgcattagaaactga 323 213953 acaggaaattgctacttaccgccgccttctggaaggagaagacgtaaaaactacagaatatcagttaagcaccctggaagagag _at agatataaagaaaaccagnaagattaagacagtcgtgcaagaagtagtggatggcaaggtcgtgtcatctgaagtcaa agaggtggaagaaaatatctaaatagctaccagaaggagat gctgctgaggttttgaaagaaatttggctataatcttatctttgctccctgcaagaaatcagccataagaaagcactattaat actctgcagtgattagaaggggtggggtggcgggaatcctatttatcagactctgtaattgaatataaa tgttttactcagaggagctgcaaattgcctgcaaaaatgaaatccagtgagcactagaatattt aaaacatcattactgccatctttatcatgaagcacatcaattacaagctgtagaccacctaatatca 324 214027 gagaaagccaggcaggtagccagggggactagcccctgtggagactggggggcttgaaattgtccccgtggtctcttactttc _x_at ctttccccagcccagggtggacttagaaagcaggggctacaagagggaatccccgaaggtgctggagg tgggagcaggagattgagaaggagagaaagtgggtgagatgctggagaagagaggagaggagagaggcaga gagcggtctcaggctggtgggaggggcgcccacctccccacgccctcccctcccctgctgcaggggctctggagaga 325 214038 atgagccttcatacatggactgagagtcagagcttgaagaaaagcttatttattttccccaacctcccccaggtgcagtgtg _at acattattttattataacatccacaaagagattatttttaaataatttaaagcataatatttcttaaaaagtatttaatta tatttaagttgttgatgttttaactctatctgtcatacatcctagtgaatgtaaaatgcaaa atcctggtgatgtgttttttgtttttgttttcctgtgagctcaactaagttcacggcaaaatgtcattgttctccctcctac ctgtctgtagtgttgtggggtcctcccatggatcatcaaggtgaaacactttggtattctttggcaatca gtgctcctgtaagtcaaatgtgtgctttgtactgctgttgtt 326 214091 atgcctacaggtatgcgtgattgtgtgtgtgtgcatgggtgnacagccacntgtctacctatgtgtctttctgggaatgtgt _s_at accatctgtgtgcctgcagctgtgtagtgctggacagtgacaaccctttctctccagttctccactccaatgataat agttcacttacacctaaacccaaaggaaaaaccagctntaggtccaattgttntgctcta nactgatacctcaaccttggggccagcatctcccactgcctccaaatattagtaantatgactgacgtncccanaagtttn tgggtnnnaccacactccccaaccccccactcctanttcctgaagggccctcccaaggntacatccccaccc cacagttctccctgagagagatcaacctccctgagatcaaccaaggcagatgtgac agcaagggccacggacc 327 214142 gcctctggcaatgccattcaggccaggtcttcctcctatngtgnagannatnnnnntggnggtggaaagcgattctctcat _at tctggcaaccagttggnacggccccatcaccgccctccgggtccgagtcaacacatactacatcgtaggtcttca ggtgcgctatggcaaggtgtggagcgactatgtgggtggtcgcaacggagacc tggaggagatcatctgcaccctggggaatcagtgatccaggtttctgggaagtacaagtggtacctgaagaagctggtatt tgtgacagacaagggccgctatctgtcttttgggaaagacagtggcacaagtttcaatgccgtccccttgcaccccaac accgtgctccgcttcatcagtggccggtctggttctctcatcgatgccattggcctgcactgggatgtttacccc actagctgcagcagatgctgagcctcctctccttggcaggggcactgtgatgaggagtaagaactcccttatcactaac 328 214164 acaaggcccaggctggggccagggccagaggggaaggccctggattctcactcatgtgagatcttgaatctctttctttgt _x_at tctgtttgtttagttagtatcatctggtaaaatagttaaaaaacaacaaaaaactctgtatctgtttctagcatgt gctgcattgactctattaatcacatttcaaattcaccctacattcctacctcttcactagcctct ctgaaggtgtcctggccagccctggagaagcactggtgtctgcagcacccctcagttcctgtgcctcagcccacaggccac tgtgataatggtctgtttagcacttctgtat 329 214414 tcaacttcaagctcctaagccactgcctgctggtgaccctggccgcccacctccccgccgagttcaacccctgnggtgcacgc _x_at ctccctgganaagttcctggcttctgtgagcaccgtgctgacctccaaataccgttaagct ggagcctcggtagccgttcnnnnnncnngctnggcnntccaacgggccctcctcccctccttgcac cggcccttcctggtctttgaataaagtctgagtg 330 214433 cttcctcggaggcagcattgttaagggaggccctgtgcaagtgctggaggacgaggaactaaagtcccagccagagcccctagt _s_at ggtcaagggaaaacgggtggctggaggccctcagatgatccagctcagcctggatggg aagcgcctctacatcaccacgtcgctgtacagtgcctgggacaagcagttttaccctgatctcat cagggaaggctctgtgatgctgcaggttgatgtagacacagtaaaaggagggctgaagttgaaccccaacttcctggtggact tcgggaaggagccccttggcccagcccttgcccnatgagctccgctaccctgggggcgattgtagctct gacatctggatttgaaggctccaccctcatcacccacactccctattttgggccctcac ttccttggggacctggcttcattctgctctctcttggcacccgacccttggcagcatgtaccacacagccaagctgagactgt ggcaatgtgttgagtcatatacatttactgaccactgttgct 331 214505 ccatcggtgcggactccaaggaggtgcactataagaaccgcttctggcatgacacctgcttccgctgtgccaagtgccttcac _s_at cccttggccaatgagacctttgtggccaaggacaacaagatcctgtgcaacaagtgcaccactcgggaggactc ccccaagtgcaaggggtgcttcaaggccattgtggcaggagatcaaaac gtggagtacaaggggaccgtctggcacaaagactgcttcacctgtagtaactgcaagcaagtcatcgggactggaagcttct tccctaaaggggaggacttctactgcgtgacttgccatgagaccaagtttgccaagcattgcgtgaagtgc aacaagggtttggtaaaggctccagtgtggtggcctatgaaggacaatcctggcacgactactgcttccac tgcaaaaaatgctccgtgaatctggccaacaagcgctttgttttccaccaggagcaagtgtattgtcccgactgtgc 332 214598 ttgtcaaggggctttgcattcaaactgcttttccagggctatactcagaagaaagataaaagtgtgatctaagaaaaagtga _at tggttttaggaaagtgaaaatatttttgtttttgtatttgaagaagaatgatgcattttgacaagaaatca tatatgtatggatatattttaataagtatttgagtacagactttgaggtttcatcaatataaataaaag agcagaaaaatatgtcttggttttcatttgcttaccaaaaaaacaacaacaaaaaaagttgtcctttgagaacttcacctgc tcctatgtgggtacctgagtcaaaattgtcatttttgttctgtgaaaaataaatttccttcttgtaccatttct gtttagttttactaaaatctgtaaatactgtatttttctgtttattccaaatttgatgaaactgacaatcca atttgaaagtttgtgtcgacgtctgtctagcttaaatgaatg 333 214677 tcataagtgacttctacccgggagccgtgacagtggcctggaaggcagatagcagccccgtcaaggcgggagtggagacca _x_at ccacaccctccaaacaaagcaacaacaagtacgcggccagcagctatctgagcctgacgcctgagcag tggaagtcccacagaagctacagctgccaggtcacgcatgaagggagcacc gtggagaagacagtggcccctacagaatgttcataggttctcaaccctcac 334 214696 gagtatacatcggtgcaggcttcctggatgacagttgggtgatatgtgtcatgtggcctaaaagcctccatgtcatttga _at cctacgaattctatctttgggaatttatcctaagaaantacttanggatttanttngtgataagatgttcatcc cagcattgcaatggagaaaaatgggaagcaatggtttggttgggaatttattccttttctgctgtaa cgaaagtttgcaataggggattgcttaagtaaattattgtatctccatccagatggtggagtaccgcgcagacattaaaa gtcatgtaaaagaacatctgactgaaagaaaaatgctccttgaatattaaaaggttgtaaaaatagtgcat gttatgtgatttcaattttgttttttaaaatatgggtgtatgcttgtatacgtagagcagataaaaaagacgga aggcatactaaaaaatgttgagtggttatctttgtatggtggaacaaagtcactgtaattttcatctttggtt 335 214752 tggggctgagcaaggcctacgtaggccagaagagcagcttcacagtagactgcagcaaagcaggcaacaacatgctgct _x_at ggtgggggttcatggcccaaggaccccctgcgaggagatcctggtgaagcacgtgggcagccggctct acagcgtgtcctacctgctcaaggacaagggggagtacacactggtggtcaaatg gggggacgagcacatcccaggcagcccctaccgcgttgtggtgccctgagtntggggcccgtgccagccggcagcccc caagcctgccccgctacccaagcagccccgccctnttcccctcaaccccggcccaggccgccctggccgccc gcctgtcactgcagccgcccctgccctgtgccgtgntgcgctcacctgcctccccagccagccgctgacct ctcggctttcacttgggcagagggagccatttggtggcgctgcttgtcttctttggttctgggaggggt 336 214768 aatgctctgggtctctggatccagtggggnatattgtgatgactcagtctccactctccctgcccgtcacccctggagagccg _x_at gcctccatctcctgcaggtctagtcagagcctcntgcatnntaatggatacaactatttggattggtacctgcag aagccagggcagtctccacagctcctgatctatttgggttctaatcgggcctccggggtcccngac aggttcagtggcagtggatcaggcacagattttacactgaaaatcagcagagtggaggctgaggatgttggggtttattact gcatgcaagctctacaaactcctcngacnttnggccangggaccaagntgganatcaaacgaactgtggctgcaccatct 337 214777 gcaagatggtgttgcagacccaggtcttcatttctctgttgctctggatctctggtgcctacggggacatcgtgatgacccag _at tctccagactccctggctgtgtctctgggcgagagggccaccatcaactgcangtccagccagagtgttttatacagc tccaacaataagaactacttagcttggtaccagcagaaaccaggacagcctcctaagctnctca tttactgggcatctacccgggaatccggggtccctgaccgattcagtggcagcgggtctgggacagattt 338 214916 gaggtgcagctgttggagtctgggggaggcttggtacagcctggggggtccctgagactctcctgtgcagcctctggattc _x_at acctttagcanctatgccatgagctgggtccgccaggctccaggnaaggggctggagtgggtctcanntattagtggt agtggtnntancacatactacgnagactccgtgaagggccggttcaccatctccagagacaattccaagaacacgct gtntctgcaaatgaacagcctgagagccgaggncacggccgtatattactgtncnnnagaaaatggtgtcagcagtt gganntnccaaganannaccccaacctatgttgactactggggccaggaaccctggtcaccgtctcctcagggagtgcat ccgccccaacccttttccccctcgtctcctgtgagaattccccgtcggatacgaagcagcgtggccgttggctgctc 339 215049 cgtcagtcatcctttattgcagtcgggatccttggggttgttctgttggccattttcgtcgcattattcttcttgactaa _x_at aaagcgaagacagagacagcggcttgcagtttcctcaagaggagagaacttagtccaccaaattcaataccgggagatgaa ttcttgcctgaatgcagatgatctggacctaatgaattcctcagaaaattcccatg agtcagctgatttcagtgctgctgaactaatttctgtgtctaaatttcttcctatttctggaatggaaaaggaggccattct gagccacactgaaaaggaaaatgggaatttataacccagtgagttcagcctttaagataccttgatgaagacctggac tattgaatggagcagaaattcacctctctcactgactattacagttgcatttttatgga gttcttcttctcctaggattcctaagactgctgctga 340 215076 ggggaatggagcaaaacagtctttgaatatcgaacacgcaaggctgtgagactacctattgtagatattgcaccctatgac _s_at attggtggtcctgatcaagaatttggtgtggacgttggccct 341 215118 cttgctctgttgcagattggcagatgccgcctccctatgtggtgctggacttgccgcaggagaccctggaggaggagaccc _s_at ccggcgccaacctgtggcccaccaccatcaccttcctcaccctcttcctgctgagcctgttctatagcacagc actgaccgtgaccagcgtccggggcccatctggcaacagggagggcccccagtactgagcggga gccggcaaggcacagggaggaagtgtggaggaacctcttggagaagccagctatgcttgccagaactcagcc 342 215125 gcataaattaatcagccccagagtgctttaannnnttctcttaaataccggtgtctttgatcaggatgacatgtgccattt _s_at ttcagaggacgtgcagacaggctggcattctagattacttttcttactctgaaacatggcctgtttgggagtgcgg gattcaaaggtggtcccaccgctgcccctactgcaaatggcagttntaatcttatcttttggct tctgcagatggttgcaatngatccttaaccaataatggtcagtcctcatctctgt 343 215176 ctactctggctccgaggtgccagatgtgacatccagatgacccagtctccatcctccctgtctgcatctgtaggagacaga _x_at gtcaccatcacttgccgggcaagtcagagcattagcagctatttaaattggtatcagcagaaaccaggnaaagcccctan gctcctgatctatgctgcatccantttgcaaagtggggtcccatcaaggttcagtggcagtggatctgggacagatttca ctctcaccatcagcagtctgcaacctgaagattttgcaacttactactgtcaacagagttacagtacccctca 344 215193 gccgagtactggaacagccagaaggacntcctggaagacnagcgggccnnggtggacacctactgcagacacaactacggg _x_at gttgnngagagcttcacngtgcagcggcgagtccatcctnaggtgactgtgtatcctncaaagacccagcccctgca gcaccacaanctcctggtctgntctgtgagtggtttctatccaggcagcattgnaagtcaggtggttncg gaanggcnaggaagagaagnctggggntggtgtccacnggcctgatccagaatggagactggaccttccagaccctggt gatgctngaaacagttcctcggagtggagaggtttacacctgccaagtggagcacccaagcntnacgagccctctcacagt ggaatggagngcacggtctgaatctgcacagagcaagatgctgagtggagtcgggggctt 345 215299 aagatcctggagtttgtggggcgctccctnccagaggagacngtggacntcatggttnagcacacgtcgttcaaggagatg _x_at aagaagaaccctatgaccaactacaccaccgtccnccnggagttcatggaccacagcatctcccccttcatgaggaa aggcatggctggggacnngngnngnccacnttcaccgtggcgcaga atgagcgcttcgatgcggacntatgcggagaagatggcaggncngcagcctcangcttccgctntgagcngtgagaggggn nncntggagtcacngcagagggagtgtgcgaatcaaacctgaccaagcggntcaagaataaaatatgaattg agggccngggacggtaggtcatgtctgtaatcccagcaatttggaggctgaggtgggag gatcatttgagcccaggagttcgagaccaacctgggcaacatagtgagattctgttaaaaaaataaaataaaataaaacc aatttttaaaaagagaataaaatatgattgtgggccaggcagagtggctcatgc 346 215382 ccggtcagcaggatcatcgtgcacccacagttctacatcatccagactggagcggatatcgccctgctggagctggagga _x_at gcccgtgaacatctccagccgcgtccacacggtcatgctgccccctgcctcggagaccttccccccgggn ntgccgtgctgggtcactggctggggcgatgtggacaatgatgagcccctcccaccg ccatttcccctgaagcaggtgaaggtccccataatggaaaaccacatttgtgacgcaaaataccaccttggcgcctacac gggagacgacgtccgcatcatccgtgacgacatgctgtgtgccgggaacacccggagngnntcatgcca gggcgactcnggagggcccctggtgtgcaaggtgaatggcacctggctncaggcgggcgtggtcagctggg ncgagggctgtgcccagcccaaccggcctggcatctacacccgtgtcacctactacttggactggatcc 347 215388 gaaccacctcaatgcaaagattctacgggaaaatgtgggccccctccacctattgacaatggggacattacttcattcccgttgt _s_at cagtatatgctccagcttcatcagttgagtaccaatgccagaacttgtatcaacttgagggtaacaagcgaataacatgtag aaatggacaatggtcagaaccaccaaaatgcttacatccgtgtgta atatcccgagaaattatggaaaattataacatagcattaaggtggacagccaaacagaagctttatttgagaacaggtgaatc agctgaatttgtgtgtaaacggggatatcngtctttcatcacgttctcacacattgcgaacaacatgttgggatgggnn nctggagtatccaacttgtgcannnngatagaatcaatcataaaatgcacacctttattcagaactttagtattaaatcagt tcttaatttcatttaagtattgttttactcctttttattcatacgtaaaattttggatta 348 215657 tcttccaatttattatctgcaccaattattttgggcacttctcctgtgtatgtaaactttggagtttaggtctacgtcattt _at atataagagcctgtagacctgagtggatggacactgcctcttagaactagaacttagaactttatcttgaaaatgt acnncnnnngcngaannnccncacagagtatgtgtcaggtaggaaccaaatttatgattgtt atattcaaactggttttctgttccttgaaaatggtnttttttctgatcaaagcctatttaggagttattatgttcttgagt ttattccatgtgtgtgaatattttgaatgaatccactaataagatatgcatgtatgtctggannnnnnncnnn nnagaataaatatttaagtagactttaacaagtaaatggttgtaggcatcattaagtcttaaatagccttttc aaagatattagtgttctngttttaattattcagataattcctttaattctccactcaaatctgacttta 349 215867 gattcctgtgggtccagctttggaactgggaaacctttcttcggatccgcactcattccactgatgccagctgcccctga _x_at aggatgccagtactgtggtgtgtgagtctcagcagccgcccacacgctcctaactctgctgcatggcagatgcctaggtg gaaatagcaaaaacaaggcccgggctggggccagggccagaggggaag gccctggattctcactcatgtgagatcttgaatctctttctttgttctgtttgtttagttagtatcatctggtaaaata gttaaaaaacaacaaaaaactctgtatctgtttctagcatgtgctgcattgactctattaatcacatttcaaattcaccc tacattcctctcctcttcactagcctctctgaaggtgtcctggccagccctggagaagcactggtgtct gcagcacccctcagttcctgtgcctcagcccacaggccactgtgataatggtctgtttagcacttctgtat 350 216207 ctctggctcccaggtgccagatgtgccatccagttgacccagtctccatcctccctgtctgcatctgtaggagacaga _x_at gtcaccatcacttgccgggcaagtcagggcattagcagtgctttagcctgntatcagcagaaaccagggaa agctcctaagctcctgatctatgatgcctccagtttgnaaantggggtcccatcaaggttcag cggcagtggatctgggacagatttcactctcaccatcagcagcctgcagcctgaagattttgc 351 216336 ccaactgcctgactgcttgaggcctcaccggtgggagctccagcatctcctttgctcgaaatggaccccaactgctcc _x_at tgtgccactggtggctcctgcatgtgcgccggctcctgcaagtgcaaagagtgcaaatgcacctcct gcaagaagagctgctgctcctgctgccccgtgggctgtgccaagtgtgcccagggctgcatctgca aaggggcgttggagaagtgcaactgctatgcctgacgtggggacagctctgctcccagatgtaaatagagtaacct gcacaaacctggattttttaaaaaatacaacactgagccatttgcttcatt 352 216401 tcctccctgtctgcatctgtaggagacagagtcaccatcacttgccgggtgagtcagggcattagcagttatttaaattgg _x_at tatcggcagaaaccagggaaagttcctaagctcctgatctatagtgcatccaatttgcaatctggagtccca tctcggttcagtggcagtggatctgggacagatttcactctcactatcagcagcctgcagcct gaagatgttgcaacttattacggtcaacggacttacaatgccc 353 216442 tggaggaagttctccagcttcagctcaactcacagcttctccaagcatcaccctgggagtttcctgagggttttctcataa _x_at atgagggctgcacattgcctgttctgcttcgaagtattcaataccgctcagtattttaaatgaagtgattctaagattt ggtttgggatcaataggaaagcatatgcagccaaccaagatgcaaatgttttgaaatgatatgaccaaaattt taagtaggaaagtcacccaaacacttctgctttcacttaagtgtctggcccgcaatactgtaggaacaagcatg atcttgttactgtgatattttaaatatccacagtactcactttttccaaatgatcctagtaattgcctagaaata tctttctcttacctgttatttatcaatttttcccagtatttttatacggaaaaaattgtattgaaaacacttagtatgca gttgataagaggaatttggtataattatggtgggtgattattttttatactgtatgtgccaaagctttactactgtg 354 216474 ccgccatttcctctgaagcaggtgaaggtccccataatggaaaaccacatttgtgacgcaaaataccaccttggcgcctacacg _x_at ggagacgacgtccgcatcgtccgtgacgacatgctgtgtgccgggaacacccggagggactca tgccagggcgactccggagggcccctggtgtgcaaggtgaatggcacctggctgcagg cgggcgtggtcagctggggcgagggctgtgcccagcccaaccggcctggcatctacacccgtgtcacctactacttggactg agatccaccactatgtccccaaaagccgtgagtcaggcctgggttggccacctgggtcactggaggaccaa 355 216491 agtcgggcccaggactggtgaagccttcggagaccctgtccctcacctgcactgtctctggtggctccatcagtagttacta _x_at ctggagctggatccggcagcccgccgggaagggactggagtggattgggcgtatctataccagtgggagcacc aactacaacccctccctcaagagtcgagtcaccatgtcagtagacacgtccaagaacca gttctccctgaagctgagctctgtgaccgccgcggacacggccgtgtattactgtgcga 356 216510 agtgggtctcagctattagtgggagtgcaggtaccacatactacgcagactccgtgaagggccggttcaccacctccagaga _x_at caattccaagaacacgctgtatctgcaaatgnacagnctgagagccgaggacacggccgtatattactgtgcgaaatccc 357 216576 tcctccctgtctgcatctgtaggagacagagtcaccatcacttgccaggcgagtcaggacattagtaattttttaacttgg _x_at tatcagaagaagccagggaaagcccctaaagtcctgatctacgatgcatccaatttggaaacaggggtccca tcaaggttcagtggaagtggttctgggacagattttactttcaccatcgccagcctgcagcctgacgattt tgcaacatattactgtcaacaatataatgatcaccccctcactttcggccctgggaccaaagtg 358 216834 atgaaactgattacaacaggctgtaagaatcaaagtcaactgacatctatgctacatattattatatagtttgtactgagct _at attgaagtcccattaacttaaagtatatgttttcaaattgccattgctactattgcttgtcggtgtatttta ttttattgtttttgactttggaagagatgaactgtgtatttaacttaagctattgctcttaaaaccagggatca gaatatatttgtaagttaaatcattggtgctaataataaatgtggattttgtattaaaatatatagaagcaatttctgttt acatgtccttgctacttttaaaaacttgcatttattcctcagatttt 359 216984 catctcctgcactggaaccagcagtgacgttggtgcttataactatgtctcctggtaccaacagcacccaggcaaagcccc x_at caaactcatgatttatgaggtcagtaatcggccctcaggggtactaatcgcttctctggctccaagtctggca acacggcctccctgaccatctctgggctccaggctgacgacgagggtgattactactg catctcatatacaagtagcaaccctctcgtggtt 360 217022 tcaagtgggaagagcgctgttcaaggaccacctgagcgtgacctctgtggctgctacagcgtgttccagtgtcctgccgg _s_at gctgtgccgagccatggaaccatggggagaccttcacttgcactgctgcccaccccgagttgaagacc ccactaaccgccaacatcacaaaatccggaaacacattccggcccgaggtccacctgct gccgccgccgtcggaggagctggccctgaacgagctggtgacgctgacgtgcctggcacgtggcttcagcccaaggatgt gctggttcgctggctgcaggggtcacaggagctgccccgcgagaagtacctgacttgggcatcccggcag gagcccagccagggcaccaccaccttcgctgtgaccagcatactgcgcgtggca gccgaggactggaagaagggggacaccttctcctgcatggtgggccacgaggccctgccgctggccttcacacagaag accatcgaccgcttggcgggtaaacccacccatgtcaatgtgtctgttgtcatggcgga 361 217109 gctgtcaggattcttcaaggagaatgaatactgggaatcaagacaggactataccttatccataggcgcaggtgcaca _at gggggaggccataaagatcaaacatgcatggatgggtcctcacgcagacacacccacagaaggacactagc ctggcgcgcgtgcacacacacacacacacacacgagttcataatgtggtgatggc cctaagttaagcaaaatgcttctgcacacaaaactctctggtttacttcaaat 362 217110 gcacctgagcatgaaactcgacgcgttcttcggcatcttctttggggccctgggcggcctcttgctgctgggggtcgggacgtt _s_at cgtggtcctgcgcttctggggttgctccggggccaggttctcctatttcctgaactcagctgaggccttgcctt gaaggggcagctgtggcctaggctacctcaagactcacctcatccttaccgcacattta aggcgccattgcttttgggagactggaaaagggaaggtgactgaaggctgtcaggattct 363 217148 catctcctgcactggaaccagcagtgacgttgntggttataacnatgtctcctggtaccaacannacccaggcaaagccccc _x_at aaactcatgatttatgnngtcagtaatcggccctcaggggtttctaatcgcttctctg 364 217165 gcgctggttcctgcaagtgcaaagagtgcaaatgcacctcctgcaagaagagctgctgctcctgctgccccgtgggctgtagc _x_at aagtgtgcccagggctgtgtttgcaaaggg 365 217179 aggacagagggtcaccatctcttgctctggaagcagctccaacattgggaagaattatgtatcctggtaccagcaactcccag _x_at gaacagcccccaaactcctcatctataaaaataataagcgaccctcagggattcctgaccgattctct ggctccaagtctggcacgtcagccaccctgggcatcaccagactccagactggggac gaggccgattattactgcggaacatgggatagcagcctgagtggtggccgggggatat 366 217232 tgaggagaagtctgccgttactgccctgtggggcaaggtgaacgtggatgaagttggtggtgaggccctgggcaggctgctg _x_at gtggtctacccttggacccagaggttctttgagtcctttggggatctgtccactcctgatgctgttat gggcaaccctaaggtgaaggctcatggcaagaaagtgctcggttctttgagtcctttggggatct gtccactcctgatgctgttatgggcaaccctaaggtgaaggctcatggcaagaaagtgctcggtgcctttagtgatggcctg gctcacctggacaacctcaagggcacctttgccacactgagtgagctgcactgtgacaagctgcacgtggat cctgagaacttcaggctcctgggcaacgtgctggtctgtgtgctggcccatcactttg gcaaaga 367 217235 cagtgtccggatctcctggacagtcagtcaccatctcctgcaccggaaccagcagtgatgttggtggttataactatgtctc _at_x ctggtaccaacagcacccaggcaaagcccccacactcatgatttatgatgtcattaagcggccctcaggggtccctg atcgcttctctggctccaaatctggcaacacggcctccctgaccatctctgggct ccaggctgaggatgaggctgattattattgcagctcaaatgcaggcagtttttatgtct 368 217258 tcctgcactgggagcagctcctacatcggggcaggttatgatgtacactggtaccggcaacttcccggcacagcccccaaa _x_at ctcctcatctatggtaacaccgatcggccctcaggggtccctgaccgattctctggctccaagtctggcatctca gcctccctggccatcactgggctccaggctgaggatgaggctgattattactgcaa gtcctatgacagcagcctgag 369 217378 gatgtgacatccaggtgacccagtctccatcttccctgtctgcgtctgtaggagacagagtcaccatcacctgccgggcaagtca _x_at gggcattagcaatgggttatcctggtatcagcagaaaccagggcaagcccctacgctcctgatctatgctg catccagtttgcagtcgggggtcccatctcggttcagtggcagtggatctgggaca gatttcactctcaccatcagcagcctgcagcctgaagatgttgc 370 217414 ggtccccacagactcagagagaacccaccatggtgctgtctcctgccgacaagaccaacgtcaaggccgcctggggtaaggtcg _x_at gcgcgcacgctggcgagtatggtgcggaggccctggagaggcacttcgacctgagccacggctctgc ccaagttaagggccacggcaagaaggtggccgacgcgctgaccaacgcc gtggcgcacgtggacgacatgcccaacgcgctgtccgccctgagcgacctgcacgcgcacaagcttcgggtggacccggtcaa cttcaagctaagccactgcctgctggtgaccctggccgcccacctccccgccgagttcacccctgcggtgc acgcttccctggacaagttcctggcttctgtgagcaccgtgctgacctccaaat accgttaagctggagcctcggtagcc 371 217480 gctgccaggtgccagatgtgacatccagatgacccagtctccatcctccctgtctgcatctgtaggagacagagtcaccatca _x_at cttgccgggcgagtcagggcattagcaataatttaaattggtatcagcagaaaccagggaaaactcctaagctcct gatctatgctgcacccagtctgcaaagtgggattccctctcggttcagtgaca gtggatctggggcagattacactctcaccatccgcagcctgcagcctgaagattttgc 372 217546 agtcgctccatttatcgcttgagatctccagccttaccgcggctcgaaatggaccccaactgctcctgcaccactggtgtct _at cctgcgcctgcaccggctcctgcaagtgcaaagagtgcaaatgcacctcctgcaagaagagctgctgctcctgctgcc ccgtgggctgtgccaagtgtgcccacggctgtgtctgcaaagggacgttggagaactgcagctgctgtgcctgatgtggga acagctcttctcccagatgttaatagaacaagctgcacaacctggattttttttcaatacgatactgagccatttgct 373 217757 cctccagacctccttgaaatacaatattctcccagaaaaggaagagttcccctttgctttaggagtgcagactctgcctcaa _at acttgtgatgaacccaaagcccacaccagcttccaaatctccctaagtgtcagttacacagggagccgctctgc ctccaacatggcgatcgttgatgtgaagatggtctctggcttcattcccctgaagcc aacagtgaaaatgcttgaaagatctaaccatgtgagccggacagaagtcagcagcaaccatgtcttgatttaccttgataa ggtgtcaaatcagacactgagcttgttcttcacggttctgcaagatgtcccagtaagagatctcaaaccagc catagtgaaagtctatgattactacgagacggatgagtttgcaatcgctgagtacaatgctccttgca 374 217762 ctattaccattctaactttcataaaaagttgggatcaagaagcagctgatttcctgccagggcttatattagggggntgatt _s_at cttaaaggacattaggattggtgctcagaaatggttaatcatgctgtgtgctagccagggccagctggtaccttctttgcca tgagcattcaagggacngctaacctttattgacaatctatatngcaaaagtca ggaaagaggttgtgagctgattggattaaagacctggcacttcagtaactcagcacgcttccacttcactcaacttaagaga gttcattgacagtgttaggatgtgaaggctgggaaacacttattttgcttcaagagttccacttggctctccc aaataggtacctcaaaaactgttagcaagcggcatttggatgtcttgacaggggctttgcagggat ttttagggttttttccacattgtccacattaatggttggcatgattgtgcttgcaggccaag 375 217764 gaatatgacgttaccttgcagactaaaaggttgaaggcccgaaactaacttttagctaacaataagggctgtgccccaatgga _s_at aactgagttcattttctgagaaaggtttggatgactgaaatatttcctctacagtcaaggactttggcatgcg gtggctgaaactgagcttttttgtgtgggctccagttctcactgttctgcaatgctcatggc aagttgaatggtgagctagcttataaattaaagagctctgaactgtattcagaccgactgggtatctagcttactgttttaa catcattgttgaaaccagaccctgtagtccagtggtgctgccctgttgtgcaaactgctcctttttctcgtgtttttgtaa agagcttccatctgggctggacccagttcttgcacatacaagacaccgctgcagtcag ctaggacctttccgccatgtattctattctgtagtaaagcatttccatcaacaatgcctaattgtatctgttatttttggt ttaacacacactgattcatact 376 217767 ggtctacgcctattacaacctggaggaaagctgtacccggttctaccatccggaaaaggaggatggaaagctgaacaagct _at ctgccgtgatgaactgtgccgctgtgctgaggagaattgcttcatacaaaagtcggatgacaaggtcaccctg gaagaacggctggacaaggcctgtgagccaggagtggactatgtgtacaaga cccgactggtcaaggttcagctgtccaatgactttgacgagtacatcatggccattgagcagaccatcaagtcaggctcg gatgaggtgcaggttggacagcagcgcacgttcatcagccccatcaagtgcagagaagccctgaagctggaggagaa gaaacactacctcatgtggggtctctcctccgatttctggggagagaagcccaacctcagctacatcatcgggaaggaca cttgggtggagcactggcctgaggaggacgaatgccaagacgaagagaaccagaaacaatgccaggacc tcggcgccttcaccgagagcatggttgtc 377 217897 cccctgcatatcttctcagcaataactccatgggctctgggaccctaccccttccaaccttccctgcttctgagacttcaatct _at acagcccagctcatccagatgcagactacagtccctgcaattgggtctctggcaggcaatagttgaaggactcctgttcc gttggggccagcacaccgggatggatggagggagagcagaggcctttgcttctctgcctacgtccccttagatgggcagcagag gcaactcccgcatcctttgctctgcctgtcggtggtcagagcggtgagcgaggtgggttggagactcagc aggctccgtgcagcccttgggaacagtgagaggttgaaggtcataacgagagtgggaactcaacccagatcccgcccctcctgt cctctgtgttcccgcggaaaccaaccaaaccgtgcgctgtgacccattgctgttctctgtatcgtgatctatcctcaacaaca 378 217967 ctcttttactactgacctttcacagagaaaaaatatttcccttgaaaaaaactgggcttgtcattttttcccttgtagctttaa _s_at gcagagacataagtgccttgcattacacatagtaaactttctttaaaaaaaaaaaaaaaagattttggagactaccagggtaa gattccaacttgtccaaaagctttctggccttacatattttattataaaaattctcaagtctggtaatcttctatgtcagagct agtgatttcaaaaggtttcacaattccccaagacaaaagtgattttcgttcattataataaggttaagtgatatgtgattcat aacaattttgatgtgaagaagggaaggacatcattgacttaataatagtatcagtcggtgcaacagttggcaacatgtgcctt cacactttaccataaagagacgggtttgagggtttgccttctaaagtctgcaacttcaagaaaaaaaatcgacactgtggatt gactttcccggt 379 218087 aactttgtatagcccatgtacctaccttgtatagaaaaataattttaaaaatttgaatggaagggggtaaaggaagtcatgaag _s_at tttttttgcatttttatttaaatgaaggaattccaaataactcacctacagatttttagcacaaaaatagccattgt aaagtgttaaaatttacgataagtattctattggggaggaaaggtaactctgatctcagt tacagtttttttttcctttttaatttcattattttgggtttttggtttttgcagtcctatttatctgcagtcgtattaagtcc tattgctagaataggttactacaaaaaaggttatattctgaaagaaaaataactgacattatatataaccaattaatttaaag tattgccatttaaattacacactgagagcatgtcctatgcagacatagatttttctgttcatttatttt tcttcattgcagtggattgatttgataaatagatgtgttgaattactacatttgctgtacatat 380 218162 ggagctagccttgttEgcatctttctcactcccatacatttatattatatccccactaaatttcttgttcctcattcttcaaat _at gtgggccagttgtggctcaaatcctctatatttttagccaatggcaatcaaattctttcagctcctttgtttcatacggaac tccagatcctgagtaatccttttagagcccgaagagtcaaaaccctcaatgttccctcct gctctcctgccccatgtcaacaaatttcaggctaaggatgccccagacccagggctctaaccttgtatgcgggcaggcccagg gagcaggcagcagtgttcttcccctcagagtgacttggggagggagaaataggaggagacgtccagc tctgtcctctcttcctcactcctcccttcagtgtcctgaggaacaggactttctccacattgttttgta 381 218224 gcgggtcttgctggctaaaatgcccaggtaaagggttggttggacacagcgcttagtgcacgctgtcatcatggacatcataat _at cagttgtgaaaaacacgcgaacctatgacacttcttattccacactgaatgtgaaattgcatgttcagatgtttn actacgaggcctggctcacaggaagtgttcagtaaaagtatgcactgttagattac tgataacgcggatagatttttgttnaccataaattgttccagatttatattaatggaaggaagtgtgcatttattagctatta ntcaactttacaangcaaacatcttatttctcatctttaaacatgtcgaccagtttaattgaaaagtattctgagactg caaaatggggtgttaaaaaatactgcagttacggagctgtgtaaaccagtttctcattgca taagatacagatgtaaattgcatggagaggttgatatgcacctgtacagtaattcactcccccatttcacttctttgtcag agaatagttcttgttcatactgagtgtt 382 218312 gcatccgaggggagccgccggatgtggaagaagactcggctttcctgcagccatttagtgccgccccatgctaggttattt _s_at gacattgtgcagtgtagagttgccttaaagtgcgtgatctgccagtgctttcttcaagtcacccttgccccga ttcctcatgtttgcgctccccagggttgctcaagtggaaattttgtcagctgtttagccttttcgt acttggcgtgatgtcaacttcacttctaatctgcaaaagcagaagctgtttcctagtttacctcgcgtgtgtttacctata tggagtagctcgcagagatcacagaaatgcttgcagcctaaggcagggttttcagaccgtgggtcccagccca tttagtaaaatgggaaatcaattagcaagtggtcaccagcattacacagca 383 218353 tatacagtttaataagcctcttgcaagttacttgttctctcacctgaggtatttttttcctccccaccttgcccctgttcct _at cccttcctcttctccctttgcaagaggaaatatttaacatatttgggtccaacttcaataatgtaataattaatacattaaa agcatttaacttcctttctagaaaaatgcacaggctaaggcatagacaaaacaaagaga aatgctgagaaatttgccactggagacaagcaatctgaataaatatttgccaaaagttctttttatgtcatatagtgtcagg atttgaaggagctattttttttaatgttgcaactagcaactcatcttcggaagacacagccaggagaatgaagtagaagtga aaggtttataaatccatttgtaagcatttatcccatatattttaaattcaagaaaaattgtgtttatctttagaangtat tcaatactttatgtactatgtgactcatgcttctggataaataaagcaccaaatatgtatctgtaaccacaatcacacata 384 218418 ggcttgatgtagactggcttgctttgatttttagtgaagggaatgtacgtaaaacaaaatagggcttggctggtcaaaggag _s_at acaagcaggatggatggatggatggatgaatagatagatggtgtttgcatgtaaattgcagagaaaacaaaaccaaag ctgattggaaacaattaattgtgggtgtctgagggggaaggtcgcagcttt gggcagctttgagaagcggtacaagagctctgtgcctgtgtgtccagccctggagccagccagtgcatttattttaagctc ttagaagcaactccttggcccaggaatgcgtgacccctgagatgggtccacgcatctctctacacgtccttctctcc gtgggatactggactcgtgcctctgcgcccattctcttctcacgcatatccatgagct ttaatttcactttctgatcacggtacgtccataaagccagt 385 218468 ggagatgacttaagttggcagcagtaatcttcttttaggagcttgtaccacagtcttgcacataagtgcagatttgccccaag _s_at taaagagaatttcctcaacactaacttcacggggataatcaccacgtaactacccttaaagcatatcactagccaaag aggggaatatctgttcttcttactgtgcctatattaagactagtacaaatgtggtgtgtcttccaactttc attgaaaatgccatatctataccatattttattcgagtcactgatgatgtaatgatatattttttcattattatagtag gaatatttttatggcaagagattttggtcttgatcatacctatt 386 218469 gaagctgacacaccgtatgttgttagagtcttttatctggtcaggggaaacaaaatcttgacccagctgaacatgtcttcctga _at gtcagtgcctgaatctttattttttaaattgaatgttccttaaaggttaacatttctaaagcaatattaagaaagac tttaaatgttattttggaagacttacgatgcatgtatacaaacgaatagcagataatgat gactagttcacacataaagtccttttaaggagaaaatctaaaatgaaaagtggataaacagaacatttataagtgatcagtta atgcctaagagtgaaagtagttctattgacattcctcaagatatttaatatcaactgcattatgtattatgtct gcttaaatcatttaaaaacggcaaagaattatatagactatgaggtaccttgctgtgtagg aggatgaaaggggagttgatagtctcataaaactaatttggcttcaagtttcatgaatctgtaactagaatttaattttcacc ccaataatgttctatatagcctttgctaa 387 218541 gttcaaaatatttccaagcctgagtattgtctattggtatagatnagaaatcaataattgattatttatttgcacttattac _s_at aatgcctgaaaaagtgcaccacatggatgttaagtagaaattcaagaaagtaagatgtcttcagcaactcagtaaaac cttacgccaccttttggtttgtaagaggttttttatacatttcaaacaggttgcacaaa agttaaaataatggggtcttttataaatccaaagtactgtgaaaacattttacatattnaaatcttctgactaatgctaaaa cgtaatctaattaaatttcatacagttactgcagtaagcattaggaagtgaatatgatatacaaaatagtttata aagactctatagtttctataatttattttactggcaaatgtcatgcaacaa 388 218546 ggcagcccacaagtttctcgtggggagatggaggcagagcccagggtaggggacagagctgctggggcctttccttgcctgg _at gaatctgtcccaggaagagcttccccactcccatcccccaaattggaaaaaccgtacattcaagcctgtttggcc ctgaaattcttaagaatctggttaagaattaactcactaatgtcaaaagtcaa aacctcctaggggttgtcctgggagtcaggttcacgggtacagaagatgaatctcagatgtcactcaacctgagccgtcat tctctgtggcagggctgccctgggtttctcttactcaatccctggagtgtaagcatttggattgtgtcacagattacctt tttaccttttctttctttttttttctttttttcaatatcagtgcccacaccttactgagtattgagtt ttagagctttcgcttgatgtgcttgaccaagagacttcttttgtatccttttct 389 218559 tcaagtgcgttctttagaccaatgcattgcgtttctttccctgcttttgagatagtaggaagagttcttggtggtgtcc _s_at ccccccttcaattcttcagttgtatagtagttatagggaagatatgggtgatttctttattattacttttttttttct gcaggtcagtaaaaggatttaagttgcactgacaaaaataccaaaataaaagtgtatttttaagttcccattt gaaattgctggcgctgctggccggatgcatttttgagtttgtattagttgataaattaacagtaataacaagattgta tgaaccgcatggtgcttgcagttttaaatattgtggatatttgtcctgcatcagaaacgagctttggttttta cagattcaactgtgttgaaatcaaacctgccgcaacagaaattgtttttatttcatgtaaaataagggatca atttcaaaccctgcttatg 390 218756 cctcctgcctctggattttaggtgttgatttctggatcacgggataccacttcctgtccacaccccgaccaggggctagaaaa _s_a tttgtttgagatttttatatcatcttgtcaaattgcttcagttgtaaatgtgaaaaatgggctggggaaaggaggtggt gtccctaattgttttacttgttaacttgttcttgtgcccctgggcacttggcctttgtctgctct cagtgtcttccctttgacatgggaaaggagttgtggccaaaatccccatcttcttgcacctcaacgtctgtggctcagggct ggggtggcagagggaggccttcaccttatatctgtgttgttatccagggctccagacttcctcctctgcctgc cccactgcaccctctcccccttatctatctccttctcggctccccagcccagtcttggcttcttgt cccctcctggggtcatccctccactctgactctgactatggcagcag 391 219014 ggcatgtgtgactgtttcagcgactgcggagtctgtctctgtggcacattttgtttcccgtgccttgggtgtcaagttgcagc _at tgatatgaatgaatgctgtctgtgtggaacaagcgtcgcaatgaggactctctacaggacccgatatggcatccctggatcta tttgtgatgactatatggcaactctttgctgtcctcattgtactctttgccaaatc aagagagatatcaacagaaggagagccatgcgtactttctaaaaactgatggtgaaaagctcttaccgaagcaacaaaattca gcagacacctcttcagcttgagttcttcaccatcttttgcaactgaaatatgatggatatgcttaagtacaactgatgg catgaaaaaaatcaaatttttgatttattataaatgaatgttgtccctgaacttagctaaatggtgcaacttagt ttctccttgctttcatattatcg 392 219059 agagaatgcccttctccttattgtaaccctgtctggatcctatcctcctacctccaaagcttcccacggcctttctagcctggct _s_at atgtcctaataatatcccactgggagaaaggagttttgncaaagtgcaaggacctaaaacatctcatcagtatccagtgg taaaaaggcctcctggctgtctgaggctaggtgggttgaaagccaagga gtcactgagaccaaggctttctctactgattccgcagctcagaccctttcttcagctctgaaagagaaacacgtatcccacctg acatgtccttctgagcccggtaagagcaaaagaatggcagaaaagtttagcccctgaaagccatggagattctcat aacttgagacctaatctctgtaaagctaaaataaagaaatagaacaaggctgaggatacgacagtacact gtcagcagggactgtaaacacagacagggtcaaagtgttttctctgaacacattgagttggaatcactgtt tagaacacacacacttactttttctggtctctaccactgctgatattttct 393 219087 attaccttatcatgtcttagagcccgtctttatgtttaaaactaatttcttaaaataaagccttcagtaaatgttcattacca _at acttgataaatgctactcataagagctggtttggggctatagcatatgcttattttttttaattattacctgatttaaaaat ctctgtaaaaacgtgtagtgtttcataaaatctgtaactcgcattttaatgatccgctattataa gcttttaatagcatgaaaattgttaggctatataacattgccacttcaactctaaggaatatttttgagatatccctttgg aagaccttgcttggaagagcctggacactaacaattctacaccaaattgtctcttcaaatacgtatggactggataactctg agagacacatctagtataactgaataagcagagcatcaaattaaacagacagaaaccgaaagctctatataaatgctcagag ttctttatgtatt 394 219508 atggggctggggacttgaattggatgcttcaaaaccatcacctgttggccaacaagtttgacccaaaggtagatgataatgctct _at tcagtgcttagaagaatacctacgttataaggccatctatgggactgaactttgagacacactatgagagcgttgctacctgtgg ggcaagagcatgtacaaacatgctcagaacttgctgggacagtgtgggtgggagaccagggctttgcaattcgtggcatccttt aggataagagggctgctattagattgtgggtaagtagatcttttgccttgcaaattgctgcctgggtgaatgctgcttgttctct cacccctaaccctagtagttcctccactaactttctcactaagtgagaatgagaactgctgtgatagggagagtgaaggaggga tatgtggtagagcacttgatttcagttgaatgcctgctggtagcttttccattctgtggagctgccgttcctaataattccag 395 219543 ggaattcttctcttacttcaataaaatgggttttaacataactttaaattcagttaaatatacaatattgaatacctatagttg _at actttgggatggggactttttcaagtcattaagagtgtttgtttaaggtgatctcattgatggtagttctcagccgtctca aaaactgcaagctaatcagtcagacattctttaatgaccccaattttttcactttaattgttaccatgttttctattttt actgatttttgctaaagcatgtaagagtgaatttattatagcagtaatcttgtgtttctcctgatgtgca 396 219607 atcaacacatttagcttggcgttttattcattccatcacccttactgtaactactatggcaactcaaataattgtcatgg _s_at gactatgtccatcttaatgggtctggatggcatggtgctcctcttaagtgtgctggaattctgcattgctgtgtccctct ctgcctttggatgtaaagtgctctgttgtacccctggtggggttgtgttaattctgccatcacattctcacatggcag aaacagcatctcccacaccacttaatgaggtttgaggccacccaaagatcaacagacaaatgctccagaaatctatgctg actgtgacacaag 397 219669 catctctcaggaggtgggctgtccaccaaaatgagcattcagggctgcgtggcccaaccttccagcttcttgttgaaccacacca _at gacaaatcgggatcttctctgcgcgtgagaagcgtgatgtgcagcctcctgcctctcagcatgagggaggtggggctgagg gcctggagtctctcacttggggggtggggctggcactggccccagcgctgtggtggggagtggtttgcccttcctgctaactct attacccccacgattcttcaccgctgctgaccacccacactcaacctccctctgacctcataacctaatggccttggacacca gattctttcccattctgtccatgaatcatcttccccacacacaatcattcatatctactcacctaacagcaacactggggaga gcctggagcatccggacttgccctatgggagag 398 219796 tccttgtccacaagcactatggcccccggctcaagtgctgctctggcaaagctccggagccccagccccaaggctttgacaac _s_at caggcgttcctccctgaccacaaggccaactgggcgcccgtccccagccccacgcacgaccccaagcccgcggaggcaccgat gcccgcagagcccgcaccccccggccctgcctccccaggcggtgcccctgagccccccgcagcggcccgagctggcggaag ccccacggcggtgaggtccatcctgaccaaggagcggcggccagagggcgggtacaaggctgtctggtttggcgagg acatcgggacggaggcagacgtggtcgttctcaacgcgcccaccctggacgtggatggcgccagtgactccggcagcg gcgatgagggcgagggcgcggggaggggtgggggtccctacgatgcgcccggtggtgatgactcctacatctaagtggccc 399 219799 accatcgctggtggtatcccagggtccctgctcaagttttctttgaaaaggagggctggaatggtacatcacataggcaagt _s_at cctgccctgtatttaggctttgcctgcttggtgtgatgtaagggaaattgaaagacttgcccattcaaaatgatctttac cgtggcctgccccatgcttatggtccccagcatttacagtaacttgtgaatgttaagtatcatctcttatctaaatatt 400 219948 gaatactcataattcttatctctataatcaaaagtataatttactgtagaaaaataaagagatgcttgttctgaaagtaag _x_at atcagtgaactgcttttcagtctcaatctttgagaattgtaaattcatcaaataattgcttacatagtaaaaatttaaggt attagaaaacctgcataacaaatagtattatatattaaatattttgatatgtaaagctcta cacaaagctaaatatagtgtaataatgtttacactaataagcaaatatgttaatcttctcatttttttactgtcatataat cttagtgatatgcctattaatagttttaaataaataaattggctcatctggctttttgaaaattttgaaattcttacagat gttgattaggtatatctacaaattaatttcaattttaaaatgatgatataaaaataaatataagtatt tttcttgtgtatgtata 401 220026 agtaactttgtttatccctcaagcaaatcctgatgacattgatcctactcctactcctactcctactcctgataaaagtcataa _at ttctggagttaatatttctacgctggtattgtctgtgattgggtctgttgtaattgttaactttattttaagtacca ccatttgaaccttaacgaagaaaaaaatcttcaagtagacctagaagagagttttaaaaaaca aaacaatgtaagtaaaggatatttctgaatcttaaaattcatcccatgtgtgatcataaactcataaaaataattttaagatg tcggaaaaggatactttgattaaataaaaacactcatggatatgtaaaaactgtcaagattaaaatttaatagtt tcatttatttgttattttatttgtaagaaatagtgatgaacaaagatcctttttcatactgatac ctggttgtatattatttgatgcaacagttttctgaaatgat 402 220037 ttccacttctattccacggagaaaaaaattgatttgtgtcacagaagatttatggaaactagcaccatgtctacagaaactgaa _s_at ccatttgttgaaaataaagcagcattcaagaatgaagctgctgggtttggaggtgtccccacggctctgctagtgctt gctctcctcttctttggtgctgcagctggtcttggattttgctatgtcaaaaggtat gtgaaggccttcccttttacaaacaagaatcagcagaaggaaatgatcgaaaccaaagtagtaaaggaggagaaggccaatga tagcaaccctaatgaggaatcaaagaaaactgataaaaacccagaagagtccaagag tccaagcaaaactaccgtgcgatgcctgaagctgaagtttagatga 403 220075 ctcaactcggccatcacatatcgaattaccaaccactcacacttccggatggagggagaggttgtgctgaccaccaccacac _s_at tggcacaggcgggagccttctacgcagaggttgaggcc 404 220266 tccattaccaagagctcatgccacccggttcctgcatgccagaggagcccaagccaaagaggggaagacgatcgtggccccgg _s_at aaaaggaccgccacccacacttgtgattacgcgggctgcggcaaaacctacacaaagagttcccatctcaaggcacacc tgcgaacccacacaggtgagaaaccttaccactgtgactgggacggctgtggatggaaattcgcccgctcagatgaactg accaggcactaccgtaaacacacggggcaccgcccgttccagtgccaaaaatgcgaccgagcattttccaggtcggacc 405 220376 aaaacccattctttcagttacatctactaagagctcgtagttcaataacattccaaagaacgtagtttggaaaacactggcctat _at cggctgtaataggaagggtctaaagaaaattatttgctgagtcctcataatcaattggctataatcacaatttaa taatttatcaatgcaaacagtacattaaaaactgtagcacaatctataatttttacctt catatgcagagaaattaagaatttacatcttttacaaatatgtgtatctctgaaataatgaaatatattgatgggtgaaataat atttctggtattttcttcattataacacgtggaatgggacagtggctagaggtatggatggagcaaggtcaaatatgag ctgatggagctgggcgctaaataagggtataatatgctacttctgtgtatgttgtgtatggtatagtatgctatt tctgtgtatgttcaaattgtttatgtatataataaagttttaaaaatttgtatgtacttgacaattccttagaa 406 220468 agaggagacactttggcgttcttcaagcagaactgaggctgcgaaaaatccaagtctctacagagacactgatgaagttgaaagg _at gtaattgtttttccatgccaaatgaggaaatcaaattaatgagttgacaaacttttcctgagatgttatttcatctac atttagttaaacaacttagaatgatatctagaaaatatttattttcagccagga actttagcaaactgtggcaatgatcactgggaatgaaaacgtataatgttctacaatttttgttatcacattggatgactttga atatagtagtgacacttgggaccaaataaattattttatatgactactagaacaaagttttagtaagctgtctgctaata gagtcagaattcttccagattgtttccagctgtaacaggtattgaatttccaccgtgctcctatgtaacagctgggtg gtgtaaaaaatgaacttcaaattatggagtggaagaagcgtaatgttaatatcttgtaaattcgtattccctat 407 220645 cattttccaggatctcagtgtgagtatcattgatgcctgggatataacaattgcatatggcacaaataatgtacacccacctca _at acatgtagtcggaaatcagattaatatattattaaactatatttgttaaataacacaaaagtctgaaattcattcact taagtaaaaaaatttattgactgtctactagcaggccagatgctgtgtttggctctgaattcccaactagcaagagcag agaatctacattatggctgatccataagccaccaattcagctaaatgagatgtttctaatctgggcttccacttaaaaa taaaactaaaaatactcatgaaaagagcctacccttcttgatcagagccatacccctcttcaccaatgggaagt 408 220812 ggtattttagtctagttttatatgaacggttgtatcagggtaaccaactcgatttgggatgaatcttagggcaccaaagact _s_at aagacagtatctttaagattgctagggaaaagggccctatgtgtcaggcctctgagcccaagccaagcatcgcatccc ctgtgatttgcacgtatacatccagatggcctaaagtaactgaagatccacaaa agaagtaaaaatagccttaactgatgacattccaccattgtgatttgttcctgccccaccctaactgatcaatgtacttt gtaatctcccccacccttaagaaggtactttgtaatcttccccacccttaagaaggttctttgtaattctccccaccct tgagaatgtactttgtgagatccaccctgcccacaaaacattgctcttaacttcaccgcctaa cccaaaacctataagaactaatgataatccatcacccttcgc 409 220834 gctggccaagactactgggccgtgctttctggaaaaggcatttcagccacgctgatgatcttctccctcttggagttcttcg _at tagcttgtgccacagcccattttgccaaccaagcaaacaccacaaccaatatgtctgtcctggttattccaaatatgtatg aaagcaaccctgtgacaccagcgtcttcttcagctcctcccagatgcaacaac tactcagctaatgcccctaaatagtaaaagaaaaaggggtatcagtctaatctcatggagaaaaactacttgcaaaaactt cttaagaagatgtcttttattgtctacaatgatttctagtctttaaaaactgtgtttgagatttgtttttagg ttggtcgctaatgatggctgtatctcccttcactgtctcttcctacattaccactactacatgctggcaa aggtgaaggatcagaggactgaaaaatgattctgcaactctcttaaa 410 221004 agcccaccagcaggagcttggagtttggggagtggggatgagtccgtcaagcacaactgttctctgagtggaaccaaag _s_at aagcaaggagctaggacccccagtcctgccccccaggagcacaagcagggtcccctcagtcaaggcagtggga tgggcggctgaggaacggggcaggcaaggtcactgctcagtcacgtccacgggggacgagccgtgggttctgctgag taggtggagctcattgctttctccaagcttggaactgttttgaaagataacacagagggaaagggagagccacctg gtacttgt 411 221305 gccactatcttgaagaaggtgcacagtgccctgctcctctttcctatgtccccagaattctcttagggttctcagatgccat _s_at gactttcaaggagagagtacggaaccacatcatgcacttggaggaacatttattttgccagtatttttccaaaaatgcccta gaaatagcctctgaaattctccaaacacctgtcacagcatatgatctctacagccacacatcaatttggttgttgcgaac agactttgttttggactatcccaaacccgtgatgcccaatatgatcttcattggtggtatcaactgccatcagggaaagcc 412 221541 ctttatcatccccacaaacattttgaaactggaatatttgtcttcagaaaatggaaacaagactataaatgataagccctg _at tccctagcaccacctctcctgtgtgtggaatagaggcccctcgtgctaccaacacttaccctgtgtttaaaaagat cttgtaccaagccaacggcgttcctggctctcctgcccacaggatgaacattttcggcttccttaggagttttgc cctaccgtattccaaagcgtgtgctggtttctcatattgtctgtaggctcac 413 221584 gtgaggctcagtcagaacctccaccctcccccacaccaaagacaggggcagcgtagtattcaaaccagtattgtggtggggaat _s_at aattgtatacatgtaaattatcaagccctatgagtggaagaattttttcaaattatttttgtctctctatatattgattt atattatgtataactatctctttatataaactatatataattatatatatataactatat aattatatatatataactatatatataactatatatatgtatcccctagtattggatcatgaagagctcttcatgcattcttt gcaaaggaggttataaagttacgccctcagaacatttataactataagaatgtgccagttaaagtgctcaacaggaaata tgacagtttaaaagcattgtaaaactcacatagcttacttctctctctaaagtgcaacaaggatgaatagaatgggcca aggtatgacaattaatggttctgcatgacctagccactgctgggggttttcttctataacgttgtccttgtga 414 221667 gggacttaacatttcacgttgtatcttacttgcagtgaatgcaagggttacttttctctggggacctcccccatcacccagg _s_at ttcctactctgggctcccgattcccatggctcccaaaccatgccgcatggtttggttaatgaaacccagtagctaaccccac tgtgcttccacatgcctggcctaaaatgggtgatatacaggtcttatatccccat atggaatttatccatcaaccacataaaaacaaacagtgccttctgccctctgcccagatgtgtccagcacgttctcaaagt ttccacattagcactccctaaggacgctgggagcctgtcagtttatgatctgacctaggtcccccctttcttc tgtcccctgtttttaagtccggatttttacagaaggaactgtctccagacagctcatcaaggaaccaagcaa aggccagatagcctgacagataggctagtggtaattgtgtatatgggcgggacgtgtgtgtcatta 415 221747 cctctgtcctcaaatgtccaaaatgttggaggacctctgttcatatcccacgcctgggctcttgccagcagtggagttactgtaga _at gggatgtcccaagcttgttttccaatcagtgttaagctgtttgaaactctcctgtgtctgtgttttgtttgtgcgtgtgtgtgag agcacatcagtgtgtgcaggctgtgtttccccatttctctcctcccttcagacccatcattgagaacaaatgtaagaaatcc cttcccaccaccctccctgcctcccaggccctctgcgggggaaacaagatcacccagcatcct 416 221748 atattttgtatcatcgtgcctatagccgctgccaccgtgtataaatcctggtgtntgctccttatcctggacatgaatgtattgta _s_at cactgacgcgtccccactcctgtacagctgctttgtttctttgcaatgcattgtatggcttta 417 221841 atccgacttgaatattcctggacttacanaatgccaagggggtgactggaagttgtggatatcagggtataaattatatccgtgag _s_at ttgggggagggaagaccagaattcccttgaattgtgtattgatgcaatataagcataaaagatcaccttgtattctctttaccttc taaaagccattattatgatgttagaagaagaggaagaaattcag gtacagaaaacatgtttaaatagcctaaatgatggtgcttggtgagtcttggttctaaaggtaccaaacaaggaagccaaagttt tcaaactgctgcatactttgacaaggaaaatctatatttgtcttccgatcaacatttatgacctaagtcaggtaatatac ctggtttacttctttagcatttttatgcagacagtctgttatgcactgtggtttcagatgtgcaataatttgtacaatg gtttattcccaagtatgccttaagcagaacaaatgtgtttttctatatagttccttgccttaa 418 221896 ccaatcctgaaggtactccctgtttgctgcagaatgtcagatattttggatgttgcataagagtcctatttgccccagttaattc _s_at aacttttgtctgcctgttttgtggactggctggctctgttagaactctgtccaaaaagtgcatggaatataacttgtaaag cttcccacaattgacaatatatatgcattgttttaaaccaaatccagaaagcttaa acaatagagctgcataatagtatttattaaagaatcacaactgtaaacatgagaataacttaaggattctagtttagtttttgt aattgcaaattatatttttgctgctgatatattagaataatttttaaatgtcatcttgaaatagaaatatgtattttaa gcactcacgcaaaggtaaatgaacacgttttaaatgtgtgtgttgctaattttttccataagaattgtaaacattgaac tgaacaaattacctataatggatttggttaatgacttatgagcaagctggttggccagacagtatacccaaacttttat ataatatacagaaggctatcacacttgtgaa 419 222043 tcgactctgctgctcatgggaagaacagaattgctcctgcatgcaactaattcaataaaactgtcttgtgagctgatcgcttg _at gagggtcctctttttatgttgagttgctgcttcccggcatgccttcattttgctatggggggcaggcaggggggatggaaa ataagtagaaacaaaaaagcagtggctaagatggtatagggactgtcataccagtgaagaataaaagggtgaagaataaa agggatatgatgacaaggttgatccacttcaagaattgcttgctttcaggaagagagatgtgtttcaacaagccaacta 420 222162 aataacgcaaatggcttcctctttcctttttttggaccatctcagtctttatttgtgtaattcattttgaggaaaaaacaact _s_at ccatgtatttattcaagtgcattaaagtctacaatggaaaaaaagcagtgaagcattagatgctggtaaaagctagaggag acacaatgagcttagtacctccaatttcctttctttcctaccatgtaaccctgctttgggaatatggatgtaaagaagt aacttgtgtctcatgaaaatcagtacaatcacacaaggaggatgaaacgccggaacaaaaatgaggtgtgtagaacagg gtcccacaggtttggggacattgagatcacttgtcttgtggtggggaggctgctgaggggtagcaggtccatctcc agcagctggtccaacagtcgtatcctggtgaatgtctgttcagctcttct 421 222453 tcaaatggaacctgccctctaaagcactttctttcctttacttgcgtggtttcatgtaagctgtgctgtttagaaacaacatctc _at agactttacaaagaaatgacaaagaaggcaattgcactttttaagggatatcgacaagcagtttctgttttctaaaggacaaaa tacagagtgtgtgtcatttttaattagattctttcccctgctgagttggaaattccagtgcagcactgattgaccacagttgc caatctaaaagcacaaagacagaagtaaagctttatgctaattttatttcaatatgatagaaaatttatcttggtatgtc cttttttagataactccagcaggaaactgtaactgctatgtctttaggaaaacgtagaagaaagaacattattattcttta attcctacaaggtacttgaaaaccttaagtgaaaaagatttctatctttttatcttggcgcatt 422 222513 tgccactaattcattcacactaaggtgtaaatgattgataataggaatgagttacctcttcccacagacatttgtattaagtat _s_at gacagagcagggccttaatcccaagggaaaaggttatggaactggagggggtgagctttctgggtagaaggagacttcctga atttccttaaaacccagtaagagtaagacctgttgttttggaaggtctgctccaccatctaagagcactgattttttttttt gttgttgttgttgttttacggtctctgagggaatatagtaaaaatgcatatgcacgtgcaatttgcacggcagcatttca ccgattgtggactgtattggctaatgtgtttcctggtctttagatgcaaaccattaataacactatcttatctcatagttt tttcaggggtgcttcttgattagtagggaattttgaacacctctttaaatacagctagaaaataaaaccaatttgtaaagcc acatttgcatatgatgccagcctcacgcatttgtatatctccagaaattcaggtatgcctcaccaatttgcccgtctttaataa 423 222717 taaactaacccttacattccatgtgatgtgatgtaggcttataagntgctaaaatctataggtntnggaagtgaaagattctatt _at ttttcttttttngtacataatgggaatttcattccagattatattttatttacatattaatttcacagaatattaatatttctta acttcttaaagcatgctagcgttttatgtatatgtacacatatattcagacagggtaatttt atctgctgcctaacattgtactaaaatattgctttatctgtttttaattacaaaatgctaatgatttcttaaattatagtttaaa gacaattggcccaggaagcaaatcccctgcctttagtatgaaccactataagtaaccttacaaatagagttaatccaagacaat attaacaaactgtgctttgtctttaataaaagggataggattaacaaacatattgatggcataacctattcagctatgtcctt atttttgcaataatgtaacctcaaatatggattgttgaaccaacaatggctgtgttaaa 424 222722 tttatgatgactcagtggtgccagagtaaagtttctaaaataacattcctctcacttgtaccccactaaaagtattagnctaca _at cattacattgaagttaaacacaaaattatcagtgattagaaacatgagtccggactgtgtaagtaaaagtacaaacatta tttccaccataaagtatgtattgaaatcaagttgtctctgtgtacagaatacatacttattcccatttttaagcatttgc ttctgttttccctacctagaatgtcagatgtttttcagttatctccccatttgtcaaagttgacctcaagataacatttt tcattaaagcatctgagatctaagaacacaattattattctaacaatgattattagctcattcacttattttg ataactaatgatcacagctattatactactttctcgttattttgtgtgcatgcctcatttc cctgacttaaacctcactgagagcgcaaaatgcagctttatactttttacttt 425 223121 gataacctacatcaaccgagataccaaaatcatcctggagaccaagagcaagaccatttacaagctgaacggtgtgtccgaaa _s_at gggacctgaagaaatcggtgctgtggctcaaagacagcttgcagtgcacctgtgaggagatgaacgacatcaacgcgccctat ctggtcatgggacagaaacagggtggggagctggtgat cacctcggtgaagcggtggcagaaggggcagagagagttcaagcgcatctcccgcagcatccgcaagctgcagtgctagtccc ggcatcctgatggctccgacaggcctgctccagagcacggctgaccatttctgctccgggatctcagctcccgttcccca agcacactcctagctgctccagtctcagcctgggcagcttccccctgccttttgcacgtttgcatccccagcatttcct gagttataaggccacaggagtggatagctgttttcacctaaaggaaaagcccacccgaatcttgtagaaat 426 223122 ggtgcaactgtgacttgggtctggttggttgttgtttgttgttttgagtcagctgattttcacttcccactgaggttgtcata _s_at acatgcaaattgcttcaattttctctgtggcccaaacttgtgggtcacaaaccctgttgagataaagctggctgttatctcaa catcttcatcagctccagactgagactcagtgtctaagtcttacaacaattcatcattttataccttcaatgggaacttaaac tgttacatgtatcacattccagctacaatacttccatttattagaagcacattaaccatttctatagcatgatttcttcaag taaaaggcaaaagatataaattttataattgacttgagtactttaagccttgtttaaaacatttcttactta acttttgcaaattaaacccattgtagcttacctgtaat 427 223235 agggtacgagaacttgccaatgggaaattcatccgagtggcactggcagagaaggataggagtggaatgcccacacagtgacc _s_at aacagaactggtctgcgtgcataaccagctgccaccctcaggcctgggccccagagctcagggcacccagtgtcttaagg aaccatttggaggacagtctgagagcaggaacttcaagctgtgattctatctcggctcagacttttggttggaaaaa gatcttcatggccccaaatcccctgagacatgccttgtagaatgattagtgatgttgtgatgcttgtggagcat cgcgtaaggcttcttgcttatttaaactgtgcaaggtaaaaatcaagcctttggagccacag 428 223343 gagtccaaatgtcatcagtgctcattttgagataccctgctatcgatggtcgctacaaaccaggaaatactcaagttatta _at tgtgtatacattggntttagntttatgaaacaatttaccttcatgatctcatagttaaaattgtaataaatttaggaat ataaaggatcaatatgggaagcaaaatttctaaaggcagtttctgttgttttaattagtatttgtgtagttcaaacc aggaaggatttgactatcattagattttgcttaactttatgaaagctaaaatattctctgttataaaggggcaactccat ctggtcctatagcatctttactactgatttttnngtttaatttgaaaatgcaaagaattgttaaatgttcttaaa tgttctcactacaaaaaaagaaaaaagataactacgtgaggtgatggatatgttaattagctggat tgtggtaatcattttggaatgtatatgtatatcaaaacatgtagtacaccctaaatatat 429 223395 agatacatttttacccaccataaatgttacaatatctgaatatgctttgtcaaactatccctttatgcaatcgtcttcata _at ttgtttttatgattctaatcaagctgtatgtagagactgaatgtgaagtcaagtctgagcacaaaaagataatgcacg atgagattgcctaccattttataggatatttactatgtatttatacgttaagacctctatgaatga atgtatcagagaatgtctttgtaactgtttaattcaatctgtaataaaaatctaactaactaactcatttatttctattaaa aaggtattgtcctttaggcggggaatgggaatccttgctgcactgttgcagtcattctgaaaggacctttccct gtacttacctttcaacatgcttcaatcttatcaacgctacat 430 223484 gaaaaccgatgtgatccttgatcgaaaaaaaaatccagaaccttgggaaactgtggaccctactgtacctcaaaagctta _at taacaatcaaccaacaatggaaacccattgaagagttgcaaaatgtccaaagggtgaccaaatgacgagccctcgcctc tttcttctgaagagtactctataaatctagtggaaacatttctgcacaaactagattctggacaccagtgtgcggaaa tgcttctgctacatttttagggtttgtctacattttttgggctctggataaggaattaaaggagtgcagcaataactg ccactgttaaaagtttgtgcttattttcttgtaaatttgaatattgcatattgaaatttttgtttatgatctat gaatgtttttcttaaaatttacaaagctttgtaaattagattttctttaataaaatgccatttgtgcaagatttct 431 223551 aattgtgttgtgatgctactcactttgattgcaatgatgatgtccaaggtaagctattaaaaggcaggttacttccaaatcgcactg _at aaggaaaaggttaagaataatacatgatcacagaaatgcataccactgtctgtaaacccaacaaaattcactgttctcttttggatt tatttagcctgatgtatttttaattcaatttttatggtgatgggcaaatcattcttggtaaatgtaaatcaaacatgattgatttaa aacttcatggaatttgtagaaaattatggacatttttggtgagaaagaacaatagtcaaaactcacatggatagagtgtgtttgt tttttgccaaaaatgccccagaccttttcccaaacctcaaaaacgtcttggaaaaattgtaaaagtttgataacagaaacat ctttaggatatttttgtctgacgtattttgcttctagtatgtgcctactgtgatttttttcatgtggaaaatgcaaaa tttgtaacaaaatggttatatggaacatgcctattaaacgaa 432 223597 ggcatctggcacgtgcccaataagtcccccatgcagcactggagaaacagctccctgctgaggtaccgcacggacactggcttcc _at tccagacactgggacataatctgtttggcatctaccagaaatatccagtgaaatatggagaaggaaagtgttggactgacaac ggcccggtgatccctgtggtctatgattttggcgacgccca gaaaacagcatcttattactcaccctatggccagcgggaattcactgcgggatttgttcagttcagggtatttaataacgagag agcagccaacgccttgtgtgctggaatgagggtcaccggatgtaacactgagcaccactgcattggtggaggaggatactt tccagaggccagtccccagcagtgtggagatttttctggttttgattggagtggatatggaactcatgttggtt acagcagcagccgtgagataactgaggcagctgtgcttctattcta 433 223623 gagaagcacctgttccaactaagactaaagtggccgttgatgagaataaagccaaagaattccttggcagcctgaagcgccaga _at agcggcagctgtgggaccggactcggcccgaggtgcagcagtggtaccagcagtttctctacatgggctttgacgaagcga aatttgaagatgacatcacctattggcttaacagagatcgaaatggacatgaatactatggcgattactaccaacgtcact atgatgaagactctgcaattggtccccggagcccctacggctttaggcatggagccagcgtcaactacgatgactacta accatgacttgccacacgctgtacaagaagcaaatagcgattctcttcatgtatctcctaatgccttacactacttggttt ctgatttgctctatttcagcagatctttctacctact 434 223754 agctgccgggcaacgtgttgtgtaagtgaacatctgggaggtaaacactacacgtgaagagtggtgaaagggaacattgatta _at ctgaagtgccctggagagggaaagcactggtcaacatcacatggacaaatttcattgttttctaaagatggcctggaag tagtctttgccactgcttcctccacaaacagctcttcataacatgggctgcatgaaatcaaagcaaactttcccatt tcctaccatatatgaaggtgagaagcagcatgagagtgaagaaccctttatgccagaagagagatgtctacctaggat ggcttctccagttaatgtcaaagaggaagtgaaggaacctccagggaccaatattgtgatcttggaatatgcacaccgcct gtctcaggatatcttgtgtgatgccttgcagcaatgggcatgcaataacatcaagtaccatgacatt ccatacattgagagtgaggggccttgaggctgtaggatgaca 435 223952 ggggctatactccatccaaatatgcagtggaaggtttcaatgacagcttaagacgggacatgaaagcttttggtgtgcacg _x_at tctcatgcattgaacgtctagacaaactgaaaggcaataaatcctatgtgaacatggacctctctccggtggtag agtgcatggaccacgctctaacaagtctcttccctaagactcattatgccgctgga aaagatgccaaaattttctggatacctctgtctcacatgccagcagctttgcaagactttttattgttgaaacagaaa gcagagctggctaatcccaaggcagtgtgactcagctaaccacaaatgtctcctccaggct atgaaattggccgatttcaagaacacatctccttttcaacc 436 224009 ggggctatactccatccaaatatgcagtggaaggtttcaatgacagcttaagacgggacctgaaagcttttggtgtgcacgt _x_at ctcatgcattgaaccaggattgttcaaaacaaacttggcagatccagtaaaggtaattgaaaaaaaactcgccatttgggag cagctgtctccagacatcaaacaacaatatggagaaggttacattgaaaaaagtctagacaaactgaaaggcaat aaatcctatgtgaacatggacctctctccggtggtagagtgcatggaccacgctctaacaagtctcttccctaaga ctcattatgccgctggaaaagatgccaaaattttctggatacctctgtctcacatgccagcagctttgcaagacttttta ttgttgaaacagaaagcagagctggctaatcccaaggcagtgtgactcagctaaccacaaatgtctcctccaggc tatgaaattggccgatttcaagaacacatctccttttcaacc 437 224342 tatctgcggccccaggacagaaggtcgccatctcctgctctggaagcagctccaacattgggaataattatgtatcctggta _x_at ccaacaactcccaggaacagcccccaaactcctcatttatgacaataataagcgaccctcagggattcctggccga ttctctggctccaagtctggcacgtcagccaccctgggcatcaccggactccagactgaggacgaggccgat tattactgcggaacatgggatagcagcctgag 438 224352 ttttatttcaggcttccagctgtccctgtgagttatcctggacatttcgatggtttttggtaaggccaaactctgataagcaaaa _s_at cagagaatactgacggtatacttaaccatatgtgtaactgatacttggcaccatggaatttttcattgagttatttcctca ttcnttaaaaaataagggactataaatcagttatttagtatcttttgtttttgtagctgattccttaactttcttgtatg cctctagtaatttcagagattaaatattgctttaaactgtgatactttgatttgctagattgacaaaactgatactaatataat taagttcatctttgaaatacatctttgtgcgtagagccaaaaaaagagataaaattaataatagttcacttgtt atttgagattaatttggcatttgaaatgatcattttattttacaatcatttataatgaatcaatgttccagt tagctttaaaaggtatacggtgctaattagtaaaatattgaaggcaatattttactgctagcttgca 439 224412 taatcctgacattagctgacttgctagtgagcttgctttaaaaatctacactcttgcattcttaggcatacaggggaaatgtt _s_at gaaaaggaaggtggaaaaccaagaatttagtttgccaatgattgcctctgattcttgtaagtttgagttccacaagggc taatttattccccttttacttgggttttggggtggtggaaagcgggaaatttgggtgatttgttgattggcaatg aggataaaatgttaatacttttttggggacttaacaactttatcctattctacaagtcagtaaaggaacaattggt actcacctcagtgctgcactcaactatggaaagaggcagagtttgcttgcccaattgccaaactaaa 440 224480 attagtgtcattagtgtgttggaagagaaatactattcagtaagcttcgccaaagaaaagtgagtcaaagttaatgtgtgtgt _s_a gcatttatatgtaggcagctcgtagaccacattttagccagcaactggtaacaaagagcttagttttccttgtttgaatgctg tagatctgtacctagtacccctcccatctactgatttgtttgtttttgtaaccaaac acattttcagatagaaggagccttaaaaaaaaaaaaatcacattgagtaacttcagtatgaatgaatgagagtgtgtggagc tacccctcaccctccacccctttgtgctttttattcccgaattttcccagtctcttaaacagaaaaatgactgatataa ttatcttttggaaactgagccttaattttttttagagggggaaataagttttccccaactcacacagcataagcaatg tttgacagcaatataatgccgttgtaaactactgagagtattgtatctgttctggtaaccatgtaca 441 224560 ttgtttttgacatcagctgtaatcattcctgtgctgtgttttttattacccttggtaggtattagacttgcacnttttttaaa _at aaaaggtttctgcatcgtggaagcatttgacccagagtggaacgcgtggcctatgcaggtggattccttcaggtctttcc tttggttctttgagcatnctttgctttcattcgtctcccgtctttggttctccagttcaaattattgcaaagtaaagg atctttgagtaggttcggtctgaaaggtgtggcctttatatttgatccacacacgttggtcttttaaccgtgctgagcag aaaacaaaacaggttaagaagagccgggtggcagctgacagaggaagccgctcaaataccttcacaat 442 224663 ggtcagatggtcaacttttttcagtattatttatagttggcacttgattgcagttctgtgaggcttgagcattcatacacctcac _s_at ctgccttggcaagcctattttagtgatatggcagcacggatataacactatgcattaaaagcactttttgtaataagtttaata tcctaaaaggaatgccaattaagttttgttaactgtgtcatcaacttatcctagta cctcagtgttcattcctgttacctgcatatcttcttaaaagaaatagctgttattaatgcctttttgttttccattgagtgt acactactgaataagtgtaggagttttatgtttaccatgtgagtcctgcaacactaaagatattttgaatatcagtcatgat ggcaatttctgtataaaagagccttaaatggaacattgttttgagatcaaactccccaccc 443 224694 gatatctggccatgggtaacctcattgtaactatcatcagaatgggcagagatgatcttgaagtgtcacatacactaaagtccaa _at acactatgtcagatgggggtaaaatccattaaagaacaggaaaaaataattataagatgataagcaaatgtttcagcccaatgtc aacccagttaaaaaaaaaattaatgctgtgtaaaatggttg aattagtttgcaaactatataaagacatatgcagtaaaaagtctgttaatgcacatcctgtgggaatggagtgttctaaccaatt gccttttcttgttatctgagctctcctatattatcatactcagataaccaaattaaaagaattagaatatgatttttaatacact taacattaaactcttctaactttcttctttctgtgataattcagaagatagttatggatcttcaatgcctc tgagtcattgttataaaaaatcagttatcactataccatgctat 444 224823 gacctaatacatttcctctgtgtgtgtgtgtaacattccaaatactttttttttcttttccactgtttgtaaggtgcaacaattt _at aatatttttaagggactttttaagagttccttaagaaccaatttaaaattacttcagtgcaatcctacacagtatcaacatta gaattttgatattagtcttatgttatcttccattctatttttatctgctttttgctgctagtttcaaac tgccagtatttttccttttgcttttaaaatagttacaatatttttcatgatagccacagtattgccacagtttattataataa agggtttttatttgatttagcgcattcaaagcttttttctatcacttttgtgttcagaatataacctttgtgtgcgtgtatgt tgtgtgtgtgcatgtgtggcgtatatgtgtgttacaggttaatgccttcttggaattgtgttaatgttctcttggttta ttatgccatcagaatggtaaatgagaacactacaactgtagtcagctcacaatttt 445 224836 gagtgagtcccagttacatcaaacagtgacttccagttattccccagtaagtctgagtggttccttcaagctgggtgtctttcc _at agcctttgccagtctagccccagcagggcaccgtgtatgaatgcagtttggtgctgttttagagtatgcctgctccccagcccc ctgcctggaaccctctgagcaacttgctctgacctataatgtcttaggtgcaacacggaccccaccagagctcttggatacc cccctagatccatgtggctttatgtgaggggactgaatgcagacacaccatagcccccttctactactttccctctcgccct gccacctagttccacatggaaccaacaagttgagtgcatccctgttgggtgttttgtgttgagactggctgaaatgaggagac tttgaccatgtgacgtgtcaacagactcaaggagacaaccacctcaactgggtcatgtg 446 224840 ccccagtctcacctacgaaatatgaagagcaaaagctgattttgcttacttgctaaactgttgggaaagctctgtagagcatg _at gttccagtgaggccaagattgaaatttgatactaaaaaggccacctagctttttgcagataacaaacaagaaagctattcc aagactcagatgatgccagctgtctcccacgtgtgtattatggttcaccagggggaactggcaaaagtgtgtgtggg gaggggaagggtgtgtgagtggttctgagcaaataactacagggtgcccattaccactcaagaagacacttcacgt attcttgtatcaaattcaataatcttaaacaatttgtgtagaagtccacagacatctttcaaccaccttttaggctgcata tggattgccaagtcag 447 224959 tcatgcgtcatccctaaaataataagatacatgggatcaaatagcccttgccttttcaacacaaatcagttggaaaattatggtt _at tgagtcctgttgctgccatggcttctgtttctcagaaatgagtgtgtatgaacataccaatctatgtaataggctacctttttt tgtcttctttggaactttgtacacaaaccaagacaatatcagggtgacaggtgaatgaacttaaattctcagtcttgtctattc accaaaaaagtatactgcctgttttttctttaattattcaaggttgatgacttttaggaacatgttttatactgtattttttaa ttaaagcaagtgccttgatgtaattccatgtaaatcattgcttaaccctcttatgggatgaggatgagttattaatgtattgca gcctactggaaaggagggggagttggttaatagcagatacttttcttctagaagcttatgttttatgctgtttattatgtaaga tcctgtatgtgtgttgaga 448 224963 ataatgatccattcgagttctgtgatccttattgttcttaattgtgtttctctacgtattgttacagatgagccatacgtttc _at tttgtatcaatgtagacatgacttcagatacctctgaggacctacccagcagtctaggaccctgggccaagtgctggga ctatggtactaaatccagtagatgggctgtgtagcaactctcccagggaacacactag ggtacttagggaggtgctttgtggagcatgttgaagctttgagatctgagcaggaggcagtgatgtccctggtctattca gggaaagatttcagtgtgaaatggtaaacatccaattgacaggatttagattttgcttagtttttctgctt tttaatgtttctatcccccatctcagtgttttctttatccatcccagtgatgcct 449 224964 ataattttacatgatcctcaatatcaactccagtttaaaaagtgttatttttaaaacatttgaaaccaagtactgtttaatt _s_a tcaatcagaagatgcaaatacatactttgatctatgtttgattttgctaataatatttgaaggagattgcctaccaagg acaaaacaataaatttaaaaatcaaacgatttctccatacgctcatagtcacatatggaatt ttgagaaaataaagcatgctgtctttaggaatttttatacttctttgtctttcttccttaatatttgcttctagctgctc ttggcaatgatgaattgttatgtatgcattaatgttttgcagcccaaaagttgttcacatttttcctatataagatctgt ggagtgtgtgtttcaaagagagaactacagaaatgttaaagcaggaaaacctgaatgtgatgtgcac attttcatcccacatggaca 450 224989 catttctgtcacatgcacttagttgacattacatctacatatattagctttttcctacatgagccatctatttacttagtaacca _at gtgttcttaatgaagtatttagtcttgggtttcttgtaaaatttctctgcattccttagacagtgtactatacatgaaatattct tgttgacctagtaatttatattattccatttaattcttaaacctatggcctttttattgagcacactcttaaatcattatttgg cttgtaaacattcatctgaattgtggctacaatcctctttaaataatctaggaaaaaagaaagataaagcttacattttcacag ttttggctcttaaacacattccacaaatgccattaagaatttattttgttttaggccagtcatggt 451 224990 gagcttctagaaatttcacttgcaagtttatttttgcttcctgtgttactgccattcctatttacagtatatttgagtgaatga _at ttatatttttaaaaagttacatggggcttttttggttgtcctaaacttacaaacattccactcattctgtttgtaactgtgatt ataatttttgtgataatttctggcctgattgaaggaaatttgagaggtctgcatttatatattttaaa tagatttgataggtttttaaattgctttttttcataaggtatttataaagttatttggggttgtctgggattgtgtgaaagaaa attagaaccacgctgtatttacatttaccttggtagtttatttgtggatggcagttttctgtagtttnggggact gtggtagctcttggattgttttgcaaattacagctgaaatctgtgtcatggattaaactggcttatgtggcta gaataggaagagagaaaaaatgaaatggttgtttactaattttatactcccatt 452 225207 ttgtgtgtaatttcatggtggcctagtgagtggtgcttctggtaatggtaatagaagctcaactatttttttgtggatttcagt _at ttttatcatcagaagtcctagacagtgacatttcttaatggtgggagtccagctcatgcatttctgattatacaaaacag tttgcagtaggttatttgtcatttcagttttttactgaaatttgagctaaacatttttacatgtaaatacttgtatttac caaagatttaaatcagttgattaattaattaactcaaatactgtgaactatctntaaaacactagaaaaaagaaatgtta gtatctcaattacaccaactgtgcaaatgaactttgataaaatagaaataatctacattggcctttgtgaaatctgggg aagagctttaggattctagtagatggatactgaatactcaggcccacttaanttattaatgtatacattgtgtttttgt ctttatgctatgtacag 453 225242 ggcgtgcaattttggtctgcgccacataaccattctgaagcttttaggcgttggagaggaagttgggggagtgttagaactgttc _s_a ccaattaatgggagctctgttgttgagcgagaagacgtaccagcccatttggtgaaagacattcgtaactattttcaagtgagc ccggagtacttctccatgcttctagtcggaaaagacggaaatgtcaaatcctggtatccttccccaatgtggtccatggtgat tgtgtacgatttaattgattcgatgcaacttcggagacaggaaatggcgattcagcagtcactggggatgcgctgcccagaaga tgagtatgcaggctatggttaccatagttaccaccaaggataccaggatggttaccaggatgactaccgtcatcatgagagtt atcaccatggatacccttactgagcagnnannnnnnaccttagactcagccagtttcctctgcagctgctaaaact acatgtggccagctcca 454 225269 aactgtgtacttgtctggtcagctgtgtatgatcagttatctacctcagagtctattttcttttgtgctgggacaggttgctggcc _s_at ctccctgtttccacagaccaaatcctcctagctcaggagctagggctaagcagttatttctttcaagtattttttagttcttaaat tttatgcttgtatttgatgatagatgtcagtgacatttcatagtttcaaaagtccttgc tgctctgagaagtgtagattctagtgaaaattacatagtcataagagaaatgtgtttttgtttttgttatgtttcatttttttaaa gttgtggtattattggttctatgctccctggaatattactgctttgtgaaagtccagactgaacgcagcaccctctgtgtacctag tacagttataaacctgggtctctcactacttgatatttttgcattagttaagacagaaatttgatagctcggttagaggggagggg aaatctgctgctagaaatgtctgaactaagtgccatactcgtctgggtaagatttgggaaacataacctctgtac 455 225275 gatgagagcaaaggggtcgcaccatatggaaatgttgaaaactattgtaaagtagtattatgaagtagcttttgtgtcattcatgt _at cgatgacatgaaagtgaagtaaatttattctatgtaaattcacactaaaaccagtacagtaccataagtagaatacatgtaag aatcacctagtcttcactatattgagtaaatataacatgctaatttta caattaatgaaactaaacttttaaacatctccattatatctacatccttttgaaggtatttatcatagttgccaattttaatttt aggattgactttctctttctgaatgacttcataaagtttggtgtgaattttgaagacttgggttactaatgattgtatctttgct agtcaacaacttatgaaatatactcaatgcgtctgatgtgtcattaagtgcagaaataactaagacacaaataacctttgc aaaccttcaagctgtgtaatattccaatgttgtttttttctttgtatatatacttatatcacgtaggatgtaaaaccagtat gaccttgtctagtctccaaacttaa 456 225353 gccacacgtccaaaaccaatcaggtcaactcgggcggtgtgctgctgaggttgcaggtgggcgaggaggtgtggctggctgtca _s_at atgactactacgacatggtgggcatccagggctctgacagcgtcttctccggcttcctgctcttccccgactagggcgggca gatgcgctcgagncccacgggccttccacctccctcagcttcctgcatggacccaccttactggccagtctgcatccttgcc tagaccattctccccaccagatggacttctcctccagggagcccaccctgacccacccccactgcaccccctccccatggg ttctctccttcctntgaacttataggagtcactgcttgtgtggttcctgggacacttaaccaatgccttctggtactgcc 457 225381 gtatgtttgtaagtgcttctgcacgaatgtttatacatgactgtttccatagtacttatgtttttaaaaatattcagtcattt _at cctactataatcctcatgtatccatgtaactgactcaaaaatacttcagccacagaaagctaaaactgagcaaatctcat tcttcttttccatcccctttgcatgtggctggcatttagtaatgattaataatatggccagctg aataacagaggtttgagacacaattctttctcaaaggagtcagctaagctgggtctacttatggacaaacatctaaatgtgtg gaagtatctgatatttgacaatggtaaatttccacttagctagctagcattgtcagacttcaatctcctcatggctctggccg tcctgttttaagcatgataattgttggccacatctcacatagttctcattgagtgagttcataaataaacagggttttt ttttttaaagagcagccaagcacaaagtgtgactttgttgacattttatgtgactttgtcatatgttcctaacc 458 225442 agtgtcaggtgccttgcaggaaaataatctgagtcccaagctagcctgtgctcatccacaatcacaatgaacatgtcaaggaa _at gaatttgcagagactcaagggaagcacaatgggataaggtaatcactttcagtgaaaaactgtttcttgaaaacaggcttg gacacaattgaaagctggcttcctgcaaacacaccaagagtctgtaatctagcctatccattatatgtcctttattattca tgatatcctattcttctaccttgttgcctggtaactattctgaggactgagtttctgcagcgatgtggtgcactcttcctg tgatgaggaaacatctgggccccct 459 225458 ctggacacccggttaccaaagtcagcaaagaagatgcggtaatcgccgcctgatctccacatggtgaacacaacactcccaccaa _at cacctccttgactggtcggtcttcagcaccgggggtgggcaggcaggtgttctgtgttgacgagaattgcacaggctaaacaca aacacggaaccagagtgagaacacctcactcacggc agcccaggctgctccctaccaggtgacggagcgcgccggggctgtgggtgccaggggctgagtgctagggactcgtcatgagtg gggatccccacgttcctgtcactgctgtcaaacagaaggtaaacagtcttatgaatgtatttccttaggaaaacttg taaaaacttttattaggatatctatttaatactgaactttggcctactttgtgatagactataaacaaattgaggaaatcact atttctcacttctgtattttctcaaaaataattttgttacagagttcaatatactgtgtaccattgatcttctattgtg 460 225575 gaaactgcggatcccaaactgttccctttttcatttcttgaaatgttaccactacagacatttttttaaggtgaataaacagt _at tgtgatgtgctgtacntaaaatcatgtttaatcgtataaggaaacatttcaatacacttatacaggaagaaaactatagatga agtacatgtgtgtgattcagtctgattcacagaattctgagagtaatatggaataaaacaactccacttagatgataactgaa gcatttcctgccttgtgaaaatttggattttaaattgctgttagaatgggaaatttggacactttatatcattgtataatttc agaatttagtttctgtatcttttggaaaacatgattatagcaaaaacatagaaaataatctattactaaaacaccataaatg ataaaactagtatgcttggctgttaactctaagatgttacttatgtctgttttta 461 225602 tgagggtgagcttactcagggcccccagaggaagccctcagcctctgccctccccccacacagggcgggagcccaggcctgt _at tcctggcagctgtggctgcagctgtgctcctgctccctcctggaatgtgcgacaagcccaaatgttccngggnaggcggc cggggcagggggcttagaagtgctaatatggttctgtgttttgcctgaaacgataccaggttcccctgaatagcaacttt acaaggtccatgtgggagggaccaacccagatgccctgctgagtgtccctgaaaccatggcagctccatctgtcaagatg gcaggggccggagtgagggggctgctggcttaacagcaggcatctgggcaggccagtcctcaaagcagctcctgaaggtc tgtgttgcactgtcaccagtctcaagctatgcctctaatttcaccagggatattg 462 225604 gtgtgatgcatgtgagcgtctctggcacacacacttggacatacagttctgtgtgcgctcattcttattacaggagtgagc _s_at aaaggaagcatttaccccgatggttacctagaccacgattatttggattggggggagg 463 225626 atccctgtattcatggcttgactttgtgactgctctacactgcatgtctgacattgcagagtgagctatgttgaggtaaac _at tggttgtgttcattattttgcaatcagcctggtctctcccatgaagatgtcgtgtgcataagcacaatcatcactgatta gaagatcacagcagaatacccttggattagagagaagttcgtaccttgcatttctctga attctagtctctcataagcactgctttgctggatgattttcactgctttgtgttaatgactttgagcgatctctcacatg atggggttctttagtacatggtaacagccatgtcatcttacacacctagcattgtgaatgctgtagtgacatccttta taggcaccttacagctcaaaacttttgtttcatttcatgccttacttatca 464 225688 agtgccatttattctagtttatcatgttttgcatgtttgaaagtatgaatgtgctctttcctaaaacatggcaaatgaat _s_a agatgtagagaataacaatattacttacaagatgaaatgattagattagaagtgtccctttattaaactttgtcag cctgactgggtacaattcttttgttaatttgcagtgtggtttgtatacacgtatacgtgttatcaataata agattttgcaactggatgacacaagattttacttgaacagtgaaggacaaaaatcatgattgtggaagatatttttaa aatctgattttgcagcgatcacttttaaaccctgtagtgatgtaagactaaaatataattgctaagattttgttggt taatgtaaagatatgacttttctgcactgtactctcttcataggattgtaaaggtgttctaatccaatt gcatgatgtagtaagcctcttaaatatgtgtgtta 465 225710 tcctatgtcttctttcttaaatccagttgctgattttgtaaaatacagttgtgataaagcagcattacgggggggaa _at aaagctatattccaactggtgttaaatgtattcaacaaaatcttacatcatacagtatttatttcttaattaata gaacttcagtgatatacttggtagatatctcaagccttttgtcttttacacaatggtgctctatcctattgttttct tttcaaagaagcatctgaacacttgcatttctattttcctatccaaaggcatccacatctaagtgtgtttttaaagt tgattaaaattatttttctgttaaagcattctgaaagtgtttgtctttacctagaatgatttgtacacactcgtggt caactgaacatgaatgtcagtagtagtctaattatgggaagggtaaacgtgttagattaaggctcttaaagctctaa accatataaactatggacttgtatcatgatttaactgttcttagatctttcttacacagtgattcattcctctatt tgtacagtggcttt 466 225720 tatcaaaggtttgccagccaataaagtgcatcccaagtatacaggggagaaagctagactcctacagggtcctagagtttaagtaa _at tttttttgttattaatataggtaataatattctaatttttattttttggttccaaatgtaaagctccttgtgtttacctct gtttatgtcattcttgacatgtttatctaaattatgtgtgctctgtgacaggtgaaatgtaa atctgggatccatagtcaagatatcataaggacctacttcccagcctacctttcttcctctacctgataatgataatactcaaaat aacaacattcaaaggaaacacaaagaaatcctgctttcacatctcctatttcttgggctccttaataactactgatggtttgt tcatgaaaaaaaatttttaaatcaaaagattgtacttggccctgagttgaaaaaatttcaaaaatcaaaagtttgtacttggc cctgagttgaa 467 225721 cagaaacatgaccctcgctggtcttgggtccacatatcattggactctgggggacacaaagatgcctgtgacactttggtgttgc _at cgagttagtcaacaattattctgggaaaaagcagaattgaattcttctctagatgtcctaccagggttggccaagggccacaaa gcaggctaataaattcccacaggatccagacaccaggcaaaattgctctaagaagccagttactgtcatccctctatggttcta gaaaaaatagtacaaaaatgacaggtcatcctatgagcgtcatgccaatgaaaccccatcttctggagaagcccttgaatc agaattatcttttttcttgatgtcgtcagatgcagccagtttcttaatttttttaaaaactgtatgtttctgtggtatgtata tttgtacacctaactacctggcacttggaaatcacagcactact 468 225728 ttatcctgcgacaacactttcagcagantagcctctccttatctcacagatcacaagcacccctagatagtgtgattctgtcaga _at tagcatttatgcaaaaatctatgaagttaaaagatcgtagaagccaaatgaaatgtacatatctactgactgatgacaaggg aatttcattaggaagaaggtaaagaaacatcgttgagtagcctaccttgatttctgtcaagttcataaccagcttcatatttt aaaggcttcaggtttgaaattaagtcaactgcatgcagctttgctgataaatgaataattctctttgatgccatttat gagaaaagacttcaatatctgttgcctgtcatatttaagaaaaattactgtttctactctctgtatctgattttaaaa gaaaaaactattcatacctggcttccaggtaattgactttga 469 225782 gaactgagtcaatatggcaaggtgtatgtgatctgtgggagttatgccatttaacataggaagtgcatgggactttccctctct _at gcactccagctcttactgtaccattagaagatgcagaattctgttggtgtgcaaaaagtatagccttacattcaagcaga atggatctgaagaaagcagcaatatctgttactagagaacattcccatgtgtttaaactcttcacttcttagatgca tttaaattcttaatgcaaatgacgtagcaatttgaaaacttctccgtattacttgtgaaaatgtcttgctttaaatacaa aacaaatggtaaaggggattatcttttgtttagatggttaaatattatttttgccttagatagctttgtaataattttt ctccagacagttcaacacttttga 470 225894 tactgactgactacaggggctgattgtgaagcacgaggaaccccatgtgtgtggagactgtagggtgagagcacacaattatt _at agcatcatttctgagtgatctcacagattttttttcttgtgtttgttttgctttttgacaactgcttctcccacgttcc ttgcaattctattctctcaccttcactttactatttgtattcgatggaccaggataattcaggc aaggttaccttgtaaacttnaattggccacacaccatgttgtcacccagctggctatgaagtgaataatggtactgaaagta aacctgaagacctttctcagatctattttaagtctgagtctgaccaaccatggaaaatattcgacatgaattaatgt agagaactataaagcatttatgacagctccaagaaaaatcatctactctatgcaggagatatgtttagagacctctcagaa aaacttgcctggtttgagggtacacagtaccattttaatcttctgaaaatatctgtattcctgctctttttctgctgtcac tgtcaatctgctatattttt 471 225895 ttcctgacgggaatgttgtgctataatgaatctgcataacgcttgggattctaggaggaaggaaggttccatggacatgtaagta _at cagcatattcccctcagtcttctaggagggcagagtgaatcccagaactggtaagattgggaatctgagcattgccacttta atcttagaatatttatcattttgacacatcctgttttttagagaggaaaac aaacacagtttctgcattggtagtgtaaagcataccttgttaggaacgtgttttgtaagacacatttgggttgtcattctaga gcatgtcaaactttgtacttcaaaatatatttagtatgattgttagtggtaacatatatcaaggctttgaattaactgtt ttatttaattttcacaagaagcacttattttagccataggaaaaccaatctgagctacaaatagttctttaa aataagcccaggttatttagctattctagaaagtgccgacttctttcaagaag 472 226001 ttaaatattcattccattacatctagactcaccaagaactacatgttatgatgttaagttgaagttgaaacatgatgttttg _at cattaaatttaagatatgcaaatttatgtagagaaaataaatgttatataccctataatctttcacctaattagtatttaa ttatatggatttgttttatattataaaagatgttttgattttgtcttttgatattgacaaaattgtttg gatatccttatgttctcaagtctgtatctgcctcccctgccttatttcttatgattgccacagttaacccattgtgcttct ttgtaatcaaacagtttgtgggagaatgggcttattgaatgtctaaaaaataagtttaaagtgtttgttaccctaagtttt ttacatttttaaactctaattacatatgtgaatgttattactctcagtgaattgttattgtttgcaaaaat gcactgggcagtaacattttgt 473 226051 gccggactggaaccgtctgagcggcctaacccgcgcccgggtagagacctgcgggggatgacagctgaaccgcctaaaggaggtg _at aaggctttcgtcacgcaggacattccattctatcacaacctggtgatgaaacacctccctggggccgaccctgagctcgtgct gctgggccgccgctacgaggaactagagcgcatcccactcagtgaaatgacccgcgaagagatcaatgcgctagtgcagga gctcggcttctancgcaaggcngcgcccgacgcgcaggtgccccccgagtacgtgtgggcgcccgcgaagcccccaga ggaaacttcggaccacgctgacctgtaggtccgggggcgcggcggagctgggacctacctgcctgagtcctggagacag aatgaagcgctcagcatccc $47 226084 aatggcttctatgatcagaactgggaaaacagtgnatcttatggtggaagaggtnctcagcaagtgtacagtatttaccttcct 4.0 _at ttgtcttacatnggctttttaaattttccattaatttcaacataattatgggaacaagtgtacagaagaatttttttttta 0 agatatgtgagaacttttcatagatgaactttttaacaaatgttttcatttacaggaaatt gcaaagaaaattctcaagtgatagtctttttttttaagtgtttcgtaagacaaaaattgaataatgttttttgaagttctggca agattgaagtctgatattgcagtaatgatatttattaaaaacccataactaccaggaataatgatacctcccacccct tgattcccataacataaaagtgctacttgagagtgggggagaatggcatggtaggctacttttcagggccttgacaagtaca tcacccagtggtatcctacatacttctttcaagatcttcaaccatgaggtaaaagagccaagttcaaagaaccctagcaca aatttgctttgg 475 226103 ggaacctatcaatttgagtggactttttctttagtagtacaccatttnggttgtngtagtttcaaagtctttctgaagcagatat _at attgggattggagcggggtggggaaaactgtcactcctttcagaggaaaaggggaggagcatggagaaaaacaaaa attaaaggacttaaagaatggctatacagtgttgagtgttgaggatattaaacatgttatttttcaaacgtatgtaat atatattaaatttataaagcaaatttatgttgtgatcttgcctgaacaaattatattttaatgaaaaaactttctattaatagt tcacgcaagagaaaacactttcaacatagtcgaaggcttcaagatctaagtgtatcagacttagggaaaaagtggcacaacctt cgatttaaaattctagtctttaaaatgagtttgtaaataattagctattacgttctattaagttgtt 476 226147 agggatctctctacaagagcccctgcccctctgttggaggcacagttttagaataaggaggaggagggagaagagaaaatgtaa _s_at aggagggagatctttcccaggccgcaccatttctgtcactcacatggacccaagataaaagaatggccaaaccctcacaacccc tgatgtttgaagagttccaagttgaagggaaacaaagaagtgtttgatggtgccagagaggggctgctctccagaaa gctaaaatttaatttcttttttcctctgagttctgtacttcaaccagcctacaagctggcacttgctaacaaatcag 477 226302 ggtaattatggaaactcctcaaagaggagaaagtaatttttttccagacatttttctcattctgtgtctttcacacactagtt _at tccatagttcgagaattctgttttttaccattgggctgtgaatgttcacaatatcagtcctgttgaattcctatga ggtaatcacaatgtgtatatgttcattttctaggtatgataaaagaatgtatggctttttattctgtggaa gtaaaatcctgaacgtttacaacttttccttaacttgtaaataaaaaattgtaagttttttctttttttacagaaaac ttagcttgtgtaattctgttagtttcagatttctctcctgtttttgcaaattgtgggaaagattgacaatgcaaatgtgtc aaagacatactgttgggtgc 478 226303 acatgggtttatacaagttcctcttgagaaggcaaaaagaccaccatgtgtgagagctctttgacttggccaataggggcctatc _at ttaatgcacttgtttggacacatttctgatcttatttgtaaaggctgcaaaaggagaggatgaaatgctgtaaaagtaggaaa tgaagtggaagctggaagaaaatgtaattggtggtacagctatgg gccagatggtggaggggagggtggggacccctgccggcaagcagagtgtcacagctggctttcctcacttgggaaaagggtact gccggtctagcagcctcctctgtactcagccaggacacccagcgcgtgggacctgtttgtgtctgttttgcttccttgg gaacggcacagtcactcaccctgccatttgcggaaatgacctggtgcactttgactgttaagcaatgcgttattgctgtagtc aaggttagtgcaagcaaggaaacattcccagtaaggtatttgtttccattttctgtctgtgcttctgtcagaaacttg ctaggac 479 226304 caaacgtcctggactgcacagacctcccactccagaccatccaggcctggttcccaagacccgatccttcccctgcaaccagaca _at gtctacaactgccccctccagcccattttctgccgtgaaaccccagccagccacaccagactctggaaccctttttcg actgccccaactcttggacaccaggccaactagaacacccaacac caaactgtacagactctcccaccccaacctccccagactctgcacggatgtcctaggccccctccccaactctaaccagacccca tccccctaagtccctttgtcttgacccccaagtcttcaaccagatatcctcggcaacccacctcccaccctc ctcctcttctccttcaagacccaactgagcacccgctctgattccccacagcctttct ccctgccaccactcccttagtctttcccaggcttactctcccaataaatgtgctag 480 226333 ggtggagttggtggtcttaatttggagatgcaggggcaacctgtgaccctttgaggcaagagccctgcacccagctgtcccgtg _at cagccgtgggcaggggctgcacacggaggggcaggcgggccagttcagggtccgtgccaggccctcctcagtgccctgt gaaggcctcctgtcctccgtgcggctgggcaccagcaccagggagtttctatggcaaccttagtgattattaaggaacactgtc agttttatgaacatatgctcaaatgaaattctactttaggaggaaaggattggaacagcatgtcacaaggctgttaatt aacagagagaccttattggatggagatcacatctgttaaatagaatacctcaactctacgttgtttcttggagataaataata gtttcaagtttttgtttgtttgttttacctaattacctgaaagcaaataccaaaggctgatgtctgtatatggggcaaagggt 481 226430 atttttccatcttattcaagtcagagcacttttttttaaatagcaatacaacaggcaagagaatactcaaaaatatttaaaac _at tgtattgataccaagagtatgttttaaatattttctaataaatacttgagcggtttttgtctggcaggcttccaaatttg ccaaaattaagcgttcagtattttcaacacatacgctttttactggtttatactgaactatctg atgagaattcctgtgttcccaaagcaactgatgtttacaggtcttgtgtttctcctcctcctttctaaggatgagggaatcca caacagactttctctagaaaacactaatgatggacaactttttggtgtcatcaatgagttggctactaccttgatg taaaaatttgtaaggaaaattttcaccatttcgagtgtcaagtgtatttttaactgtctggtttgta cttttatgacttttgtactaccaaagcgga 482 226492 agtgatctctggaagcgctaaagctaaaatttctgttcttgaaacacttcagctttgcaactaaaatattacagattaataa _at taaattaaaccaaccaatgataaacactactcagtccaccaacaacaaacgtgtttgaattcaccttaccaatatta atcccagcgtgtgtaaaacagaacagtaactctatgtgaccccagataacattttgtaacattgtgcttccttgtag tttgtaatgtgagttcaatcagtatttatgttgaaatttctaacattaaatctagtctctatcctgttaatttaattttt aaatgctttatccatttgtgcaaaggtaaacgcagattgtatcttttttaatggtacggcataaaaagtaaccctcaagtg aagtgtctcta 483 226594 tgacgagacctcttcaaaaacccacagtaaaactcccctccctccagttggccaccagtctgccaccaaacatgaacaaattctg _at ctgctaatcggtttcccttgtgatctggttcctgaggtcttcggatctgtgcaatgaattatttattgttttattaaaccga cagtggtgtcccagagaggaaccataaataaaatggaaatctggtgctgt gataaagtaataactagcattaatgagacctggttttcctttcagaaagtccagtatacctgtaacaaaggttaaagcaatttat atttaatttgcattctgatgttaacatttaaacagcaattctaacaaaaatgcatcgagtctaattcttacctct atcaaaaaacaactgtataaatttatgaccaacattaaaacaaaaacaaaatgtaaatt ttctctttagaaatgattaactggaaatgagtgagacagcaccttgtgggttt 484 226654 tgctcgcattgatcatcctaatcatcttattcagcctatcccagagaaaacggcacagggaacagtatgatgtgcctcaagagt _at ggcgaaaggaaggcacncctggcatcttccagaagacggccatcngnnnagaccagaatctgagggagagcag attcggccttgagaacgcctacaacaacttccggcccaccctggagac tgttgactctggcacagagctccacatccagaggccggagatggtagcatccactgtgtgagccaacgggggcctcccaccc tcatctagctctgttcaggagagctgcaaacacagagcccaccacaagcctccggggcgggt caagaggagaccgaagtcaggccctgaagccggtcctgctctgagctgacagacttggcc agtcccctgcctgtgctcctgctggggaaggctgggggctgtaagcctctc 485 226682 gctgattctaattgtgtgtaggtcttgaggattaagcacacaaatttcacaaacttctgtttgagtaaacaaactcagcctt _at ctgtaaatatacatgcaagtttggaaacagtaatactgtacctataaatatatgctgtctgntttgtgtacagtatgt aaaaactccttttctgccacactaaaaatgcaagccatttatgggaatcctaaaactagta ttgaactaaaactttgctaatgatctttattagaggatcgtccaacttttcacttaccttgggttttcttttcaattcact cttacactagtctgcttatttccagctgtttattttattgagtcctgaatttaaaaaaaaaatattttgattcattttgt aaatacaagctgtacaaaaaagagagatttaatgttgtcttttaaatactccaattttcattctaatatgaa tgttgttatattgtacttagaaactgtacctttaatattacattacctttattaaaagtgcattgaacacatcaatttta gatgtgctttatgtactgttatccta 486 226694 taagcattcagtgagctgccaattttgattttgtgttgctctttacccaaattattttttctttgtttttctttttttggg _at ggaggaggggaaaaaagcagcaatactgtgtttggaaattatactctgtatctggttttcctgtgtatgttaaccact taaatgttattatcctgctttggttttagagtgattgtgaggcattcaatgca 487 226811 agtgcctaaatcttgtttacctatcactttaaaaaaataattgaagtgtaagctaaataaaatgcttggagtttngcctgg _at gctagtgagagttggtgcaaattcttgtgtgtgtttgcataggaaggtgagatgaccatctactaaagaggaagtagct aaatacagatctgtgggtgtttttaaaaaaactcaacctatctggtgttttattttaatggataaaaatgtaatttttc taaggtagcaacttatttccaaattaatatagatgaaaaatagataccaattagactaaattgaaagctttttgttctat atttgcatagcctttgaaatatttcttagtgcctaggaggtctggggattcctctttcgtggtggtcactaaccttactt gatgcaga 488 226818 aacaccaattatgcaaactacttttttttccagcagaaagggagctgacatgatcaaatccatgttttcaaatgaactgaa _at aaaggcatccagcaccacttatancacatttatttcagttccaggctgacagccntggggnatctagcaggatnna taattgtcatctggtgagagttgggactttgctcaattttaataccaatctctcctgatt gtaattacctccactactttcatgatccccctacaatatttttttaaatgatatatttattcactgaatcaaatgtcatta atgagttatcttctgtggaggatgactgttctctttgttaatgttcacaatcaagatcttgggctgagaagaggc ccttcacccaaggagtttgaagtatcacagcgtgtgggaaggtgggaaccaggatacccattcatttccaacc gagacacagagaagtgagtcacagaatttgagccngctctcttgactgcccagccagagacactgatttct gtaacctcttcacttgatcctgcctcttaagcatta 489 226834 tcatttctagagtacctgagccaaacaaatacacaacggaagctgcagctgtatcatcactagcaatttgctcatcattattta _at ctacctttgaacctaaggtttcctgcctatgcttttgaaagcaaaaatcagtctcctttgcatgaaaaagag ccttagatttttaaacatgttagttaccagaatgctaaaataccagttgattacccaaattattt tggaaatctatccataatggaagtctacaacaaacacataaaacagattacactaagagctgagaaattcaaaggaactgaa gattctgagagataaactgttcaagtcttagcaatgatactgcacttctctttgacaggtt ctgggcttaagttagaggccctactggttccaaaccatattccactgactttgcaag 490 226841 cctctgagtgttttgtgggttctgggtgttttgtacattttagccaagctaaccacttgtctgcaagtactgactttcct _at atgaattctttgaagattattgagtcagaaaggaaaaatatagccccaaattcccaggcttttaatgcattacattaact gcctattgaaatgagaagttcttcacaaacttgtatacccactaacaagattgcacataaac atgcattaaagtatatactaagaaaccctctgtccaacggctcatgcatatgaagtccgaacatgggagtttgccaattg cattcatcaagtcgttttgcggagtcagatccctgatggaagagctcacaggctctgccttccaagtcctgggtt cctaactggtgaccttagcctggggtctgtggggagaccaaccctggcttccaagaaaaccacattc catggactatcagaaatagacacagatttgggtgacaaagctggctctgtatttgcatttt 491 227006 gcaagcgcgtgctgagcaagctgcagtctccatcgcgggcccgcgggncagggggcagtcccggggggctgcagaagcgg _at cacncnngcgtcaccgtcaagtatgaccggcggganctgcagcggcggctggacgtggagaagtggatcgacgggcgcct ggaggagctgtaccgcggcatggaggcagacatgcccgatgagatcaacattgatgaattgttggagttagagagtgaa gaggagagaagccggaaaatccagggactcctgaagtcatgtgggaaacctgtcgaggactt catccaggagctgctggcaaagcttcaaggcctccacaggcagcccngcctccgccagccaagcccctcccacgacggc agcctcagccccctccaggaccgggcccggactgctcacccctgaccctcttgcactctccctgc cccccggacgccgcccagcttgcttgtgtataagttgtatttaatggttctg 492 227052 cactgttccatggtcagcaagtcatatttcataatgtggattttccaaaataattattgaatacagctattctatggctactttt _at agtgtttttgtggtatgtggtgtgggagtgtttatggaattaccagtatcttaaattttcaaaggaaccttggaa gtctatcactctaaatgaaagtctgtcactctacatgaattatgtgctcaaatttgaccaactcagtt taagacacaaaacagtaatttgaagaaggaaaaatgaagagagtttctagtttaatgggttaaatttttgttgttgcaatagta agtttagtcttcttataatatttctaaatgaaaaatcataggtatttgttaccatgtgtgaagattantttgt taaaagcaaaagtggtcgtgtgatatgctaaatgttaattactgattttatatgtttaaatcacgccaaacaaatta tgtctgtgccatccagggtctgttgttaatctttttctgagtacttggattgggataaagggcttgtactatgcactt 493 227061 acacttatagtctactgcccatgtaaggatcagctccggctaagaggccaaagatgggtgacatcgttatgctctgccnttta _at ttttttctttcttacccacttagcttcctaattggaggaaggaggcgtggtaaaggtatatgaagactatggtttaat tagaccagaaaacactgtcataatctctggggtcatcagaatgtccagttttgtctttg ggccaagataagggcagtgggatttatgatgtgttgtttatagtctgaaactactctggtgatcanccagggtcagtttct ttaatgatggtttccaactggcctaatacattaagtaagactggctgataacatgaccagacagacataaagacc ctgttgggaatgacattgaactctcaaagtcaagatttcttacacaaatctatcagctgg agaaaatgaaggcagtgtggtatatgtgtgcaaataaggacattatgaagcttaaatatggaatgtctcttggaccccc gatgtcatctgtattctctttttcttcttgtactatatcctttgcctgtaaata 494 227099 tcccagtgcgaactctgctgtgagtgtgtgcggggaggcgcgcccgcgctgagtcggcggcgggtagccactccatgcccttgtcc _s_at gatggtttgcaactccgattttgcacaccgctccaccgtgccccccagcgcacacccattcacactcacgccaacactctcgc tgaacacttttataattgttaggcgtggccgttgggactttgggcgcagcgcggctgctactgcgtctggaggattgatattta tttttgcattgcgatggctgaaggcatttatttaacgatctttttacctggatatgtctgtgaggctcctgaa 495 227235 gtgaagtaccatagaccatattgtctagatgggacaaaataataaattttgactaagaacttactgtttagagagaaaaaata _at gtaaataatgttcaaaatgagaagacaataactgacaagtctgtgatttttgggttagatgagaccacttt tgatttttgaggaataaaaggagttagttttttggtcctgatgtgtaaaatgattcatggggttt cacatacagacaagtagttttcttcagcaaatatttaacatatctctcaatatatttttcaccagtttttggtaaatatgcat tgctataggtataccaagatttgttatgtttagtaactaatttcattattctgtatatgtaaatatagctattggaccct gcattgaaaaccttcttagtactaacaacactccttttattattaccttcatagttactttaaatgacatatttatttcg agttttacttctggctgagttgcaaagtctatgagaatgttacctcctgtctcagaagcttgttagttattgtgccacc 496 227265 acatctgctagaaccttttgccttaactattcaccaatatatgctaatattcataaatatggattgactgtttacaaacattaga _at atcttgtcttggttccattttgatggctaatatttgttatcttaattaagactatttctgaggtcatgattacttgaaa atattgactaaaactgggtccttagaaattccaggtggagctgatttacctatgactgagggg aaaaaaaaatcaaattttactgataatagtaatgctccaaatgaattaatgacacatctgttcaataaataaagagcttaaatat acaaaacataagaaatctgggcaacaaaacttgtggtctttacttttgaatagctacccaagaaaaggttttaaaggtaaaag ttatgagtaatgtcatcacaataagctcttgtttaaaattcttttcttttatgtataattaggtttatgtttcatgtcttt 497 227404 atcccatgggcaataaagcgcattcaatgtgtttataagccaaacagtcactttgtttaagcaaacacaagtacaaagtaaaat _s_at agaaccacaaaataatgaactgcatgttcataacatacaaaaatcgccgcctactcagtaggtaactacaacattccaactcct gaatatatttataaatttacattttcagttaaaaaaatagacttttgagagttcagattttgttttagattttgttttcttaca ttctggagaaccgaagctcagctcagccctcttccttattttgctcccaaagcctcccccaaatcatcactccctgcccccc ttaaggctagaggtgagcatgtccctcacaattgcacatgtcaagccatcagcaaggcgcatcacacaaaaggcaccaag 498 227522 cagtgagtcgaggttgcgctactgcactccagcctggacaacagagggagactctgtctcnaaaaaaaaaaaaacctacagct _at gttcaaggaccagctgacaggtcaagtgtggccttttctggtctttgaacacatcatagaaagtgacaaatgctgcaaagc catgaagaacatgaactataaacgggtagactaactgcccagcttagacacttatctatgccacaaaacagctgaatttgtc acatttatatattgcaatatgggaagtattgagatcaaaacaggattccattgacctaattat 499 227529 gccatcacagttgcgattccatgagtagctgctttatgactgctttttgtactatctggatgtgcccagagttacttctgt _s_at acaagctctgtatctatgtccgttgagaacattattttaacaagaagaacaccaacagtagcatgaaatataatactgttt tataattctaaagctgctgttaatttatgaagtacataataatctaatgtaaactgcagaagtcagagcaa 500 227561 gcaaccattggggaatgaccttttcatttcagaagtggatgaggaaggtggtgtgagcatcaggtatattactggaccatt _at tcaagtgctggtgagaagaaaggaactctttgcctgaactgggcttggttttccaagtgctgctttggaaatgaa gacccagagatgcagagcttatggtagttcataaatcttcatgttctattatctttcatctg ccaataaagttcattttcaataatgtccaccattgctgtgcccagaataaccacaggcaaacatcaaaacaatacgcataa gttagacaagattaaatcttgtctgatatctgcacaaacagatatgcaccatgttggaaac atgtgttttcctagtcccatccaggcttcccacaagaaagccatgatgtgggtctaaacc 501 227623 attgtttcccatagcagaatgtcaatattcacagtacatttctgtaaagagcaaaccaatataatgttttgagtgttgaaaaaa _at attccagatttntgaagaattagacaactcttcatctaccttatttctagttcacacagttatctcaaattccactga aactaatgggatactgtcttgtgtagatgccagttgagtttataatgtgacctagtaaagctgtcttttttgttgtgtt gtatgagtgtcggatcatgcttttaggaatacttttattaaaatggtgtgcattcatgcaaaaggccaactggcttttgt gaacaatagatcttttctcccctttattttgttctcttgacacttttgtgaaaattacctagcctgata 502 227662 aaagccttccctaaaaagagagcatgccagtcatagagacactaatttggcacttttcctccttcttaggtttaaatgttata _at ccaatgcatgtgtttgaaatatccattaagatgatttaaaatttgtcttgtattttgagtttcttaaatgcgtggatt cttgttcatttatctctgaatatgtctcttttatattttggcacaattatacacattggaaagggcca acctattagggctcaagtatgtatatgcnaaaaaaaaaagttatatcaaacaggcacagttattacaactagagagaaatt ccagaaatatttgtttttttaagagaaagtaaattttcacattagatttctattcaaagtactaatatctacatgg tccacacttttctattttaaaaaattgtgttctcttgttaaatagattaacatttccacttctgtttatcacaa 503 227682 atctttccatattgaggacagcctctgcatataaaaatgttcattgggagaaaaattatttttaaaactaaatttttatagtag _at tcctccattactggcaattaaggagcaacccacaaaatgtcattatgtggttctttgattaggcataaaaagtattgcaaacag cttttctattcctttggaatatgaatctttttaatgtctaaagttaacctgcaaca ttttctagtaggacaagtcaatgtaaattaggtaatttttgcctgttttataccttctgtngcattttgttcaaatgaaaaca ttttttaaaacatgattgaatttttacttctcagataattggtttgagtgtggaatttcttttttaacactttgatatgt aagttagtgtaaattaatacttttataacactactaggctttatantatggaatgttttaaaatttgaaatt tttgaantgttaatttagcagtactttatcattatgtgccaatactgacaag 504 227705 tttactccagtcattcgatgttgctgagatttacatatgactcttgtcaacatctcatcttttgacccaatcttattcattta _at ataagaggtctcattcatttgcatggaaaaatgctcattgtatattgcaaagtgaaaataacgagttgcaaaacagtgtat acatatatgtgtgtatatatgtacactttatttgtacatttctatgtgacataatgcaaagg aaagtgtctgattttattatacaccaaaggttaacagtgaatctctgtgtgatctctttttttctttttgcctatctgcatct tctcacttgccaaaaaatgaatatatgtttatgtgtgtatattacttgtgtcacaaaaaaccctaaagtagacagtaa aagaacttgtcaatcgcctttggaaggcaatgaaacacttaataaactctcaataa 505 227725 agccaagaactgaccggggccagggnctgccatggtctccttgcctgctccaaggcacaggatacagtgggaatcttgagact _at ctttggccatttcccatggctcagactaagctccaagcccttcangagttccaagggaacacttgaaccatggac aagactctctcaagatggcaaatggctaattgaggttctgaagttcttcagt acattgctgtaggtcctgaggccagggatttttaattaaatggggtgatgggtggccaataccacaattcctgctgaaaaaca ctcttccagtccaaaagcttcttgatacagaaaaaagagcctggatttacagaaacatatagatctggtttgaattccag atcgagtttacagttgtgaaatcttgaaggtattacttaacttcactacagattgtctagaagacctttcta ggagttatctgattctagaagggtctatacttgtccttgtctttaagctatttgacaactctacgtgtt 506 227727 gggctgttccagagattcgatcctcttaaggcattatcagtgagcaaatgtgaaggaaatggtgtctggaagaaagttctg _at gttcacatgccttgtagctaagtctttctgcaaacaacctcccttccccccgtcgagtcatttggtgactttgatgggggg atttctggttatgtcaaggctctggagacaggaanggcctttggccgccttgggtagttgacctgccttttctgactccgg gacgagccagtcctaggctgcctcngggagcacttgaggtatcccgcaggccatgaggacccactgggcagctcctgg acagcctcttggctccagcccccacccgaaagtggnacactgnntccgccctggccacctggggactggcactgtggt gcacagtggcccaatgtggccaacggaagtttt 507 227735 cacaggtgtagcactcccaaagcaagactccaganngnnnnnnacctcatgcctggcacctgaggtacccagcagcctcctgtc _s_at tcccctttcagccttcacagcagtgagctgcaatgttggagggcttcatctcgggctgcaaggaccctggga aagttccagaactccacgtccttgtctcaattgtgccatcaactttcagagctatcatgagccaacctc 508 227736 caccatgaccggtcacagctacaaatccagagaccatcaatcctgctagagtgcagggnggcaagcacccaagggtggctgac _ at caagactgcagagtctcctccatcttcaggtccattcagcctcctggcatttaactaccagcatccagtggtccccaaggaat cccttcctagcctcctgacatgagtctgctggaaagagcatccaaacaaacaagtaat 509 227826 ggttagattccgttttgactgcttggtatctcattgtaagcatttcccagggacactacacagtctttataattatgatcact _s_at acatcttttggataacttaggcttttgcactattttgtcacgatgcctcaaacttttctatcattgtctgtaattactcctat aatcttttatt 510 227827 aatatctcaagatttctaggcattttcctatgtctaatagtaggatgttctctctgaatttatttattacaaaaataacattac _at aacaataaagcaaaataatatttaaaagaaagaaaaaacaaacagtcgcaataccagaacaccattgtagtcgtttgtgta tgtgtgacttctttacttgtttcatgcagagacaagctttgtaatacctttgtaact actgtacaggtgcgtggttagattccgttttgactgcttggtatctcattgtaagcatttcccagggacactacacagtcttta taattatgatcactacatcttttggataacttaggcttttgcactattttgtcacgatgcctcaaacttttctat cattgtctgtaattactcctataatcttttattataaaatattgaaacaaagtcacatcactaaaaaca ctgtgagtataatttattagtaagtgtagactgtgtatcattagcaaa 511 228133 ggagctgcttcaagaagaaacccggcagaagctcaacgtgtctacgaagctgcgccagctggaggaggagcggaacagcctgca _s_at agaccagctggacgaggagatggaggccaagcagaacctggagcgccacatctccactctcaacatccaggtgcctgcccc gtgtccttgcttccttcatgggtcctctcaacttctctgcg ctgagatcccccgcaggcagatcgcggtggagtgttggtgcgatggtgcttgaccccccagcttcccctgctattgggtttc tccaacgaggagacatggtcttcgcttctcagagtctgtggggccagggacaggggccantcatggtc cccctctcaccctaccctggacgctgtccttgtagctctccgactcgaagaagaagctgcag gactttgccagcaccgtggaagctctggaagaggg 512 228195 tgttacctttcagttacatgcctttgatcctaaaattctctacttttgntgccttatcagttctttgcaatctgcctgtggttat _at cagcacttaaagcacaattttgaaggggaaaaaaatgataatcaccttagtcccaaagaaataatttntgtcaaactgcctt attagtattnaaaacagacacactgaatgaagtagcatgatacgcatatatcctactcagtatcattggccttttatcaaat ggggaaactatacttttgtattacatagttttagaaatcgaaagttagagactctttataagtaatgtcaaggaacagtaat ttaaaaacaaagttctaacaaatatattgtttgcttaatcacaatgccctcaacttgtatttgaataactaaata ggacatgtcttccttggagctgtgggcattagttcagaagc 513 228202 gtttacacctatactgcataatccaacaattttaatttcagttgaagacatgttactaatataactattattaaaagagtagag _at gatgtgtaattaaccatatcttctaaaacatggttactaaaagaatatgtaacatcaatattgaccttggtttcttacacaagt gttgctaactcaatagtgaaggagacactattaaattttctgaacccatgaga gatactagagatggggagtggaaagtgtttggttcagggatatctgaagaacagaagggcagagatttataagtgacgcctcat ctacaagctggaaattcctaaaaacaagtagaaagcttataaacaacaggtgatacactcacctcact ggttttagtaaattaccaatacagaaagtatccctagtcttaaaaacaagtggaaa atttgaactgattagtcatattcctttgattacactgtt 514 228232 cagtcagagtggacaaacctctgtgggaggctctactgcactgagatgcagctcttccgagggggctcctaagccagtgtacaa _s_at ctgggtgcgtcttggaacttttcctacaccttctcctggcagcatggttcnagatgaggtgtctggccagctcattctcaccaa cctctccctgacctcctcgggcacctaccgctgtgtggccaccaaccagatgggcagtgcatcctgtg 515 228241 gcctcctcagacactctcaagaggatggggagatgacatcacttgggtacaaacttatgaagaaggtctcttttatgctcaaaaa _at agtaagaagccattaatggttattcatcacctggaggattgtcaatactctcaagcactaaagaaagtatttgcccaaaatg aagaaatacaagaaatggctcagaataagttcatcatgctaaac cttatgcatgaaaccactgataagaatttatcacctgatgggcaatatgtgcctagaatcatgtttgtagacccttctttaaca gttagagctgacatagctggaagatactctaacagattgtacacatatgagcctcgggatttacccctattgatagaaaacatg aagaaagcattaagacttattcagtcagagctataagagatgatagaaaaaagccttcacttcaaagaagtcaa atttcatgaagaaaacctctggcacattgacaaat 516 228469 aaggttatagccacattcaacttgaatggtcccnaatgttaaatttaccatgaatactgtgtcttacaatgctgagctctcgact _at agactaaccagaataggaacacagtctcaaaggataccataagacaaacagtatttagacatataaaaaactacagagatgataa cttgaagaataaataacgtgaaaaactactatattcttgaatgggagtagaatgtaagctctttgagggcagggactttgactgt cttgttcattgctatatgataatgcctggcccaacagcaggcattctgtagtgtctgttgaacaaacatctaaaatctggca aagtgaacaatggttcctgaggataagtatttaaataacaaaattaactttcactacaaaagctgccaacttacctttatc ttctggtgctatcccctgagctttcttaagatca 517 228504 gaatgcatgatctcaagccttaactactataatctttttctgcccctcagaaattgaataacctaaccaagatgcctttagggga _at tgccctaagtaaatgtaatttcagatttcagggnttttttttttttcctctctaagtgttccttccctttcttctcctgctctcc atcatgttatggagaccagtgaggaaccagtgttaacttggtgacaatgtgacagctggtgctttatctaagctccgttttctat ttcttgggaatgctttattgtggaaactgcttcagatacttaaattgaatcataacttgcttctgtaaattgcgtaaagacaaca aactgattttagtttgaaaagtttatcttttacttgtaaaccttgtttgccagttacct 518 228507 agccccaggtgtatttctgagtgtcaacagtgttaatttcaagcatgctaataaaatgtnnnnncggtnatnatannnnnnann _at naannanncnttnaaantnnnggtttccantctaaaancanccncntttgcttttgttagctgtaatattttttgtcatttag ataagacctggtttggctctcaataaaagatgaagacagtagctctgta cagggatatatctatattagtcttcatctgatgaatgaagaaattttctcatattatgttcaagaaagtatttacttcctaaaa atagaattcccgattctgtctattttggttgaataccagaacaaatctttccgttgcaatcccagtaaaacgaaagaaaa ggaatatcttacagactgttcatattagatgtatgtagactgttaatttgcantttccccatatttcctgcctatctta cccagataactttctttgaaggtaaaagctgtgcaaaaggcatgagactcaggcctactctttgtttaaat 519 228640 aatcttgtgagttgtgacctaggtgaaggtntaatgataacatctggaggaagcatcatttgttcagctacctagggtttacttt _at cagacttttcctacagtttaaagcacttgcgttcagtgtggtacgatctgtttgtaatgttaatcattgactattgttctgctac ttggatgttgatagtgaagcagagaacaatttatcatcgtttattatgagtcactatgcacgcaactatgctta acatggcgaaatgtattaaacactcgtccaactattt 520 228706 aaagggtggcatttgcgtcacgtggaccagggacagtgctgaaatcagcagtgctcagaaacaatttaacatgttgaaacgacaa _s_at tattctaaaatactgatgaatcttgcatcaatataattattgggttttttttctttttcctgctgtataactccttgccatgc aaactctcaagaggccaatatattcctggccatgtttgaatgagcctcttaaaataaacttagagccatgcaaatgccagc agcttaatggatttcatggaatgaaataccgtgattaactcatagctacatatcattgcataaatgggatttatcttttt ctcacttatttttgcggtgaaa 521 228707 agagccatgcaaatgccagcagcttaatggatttcatggaatgaaataccgtgattaactcatagctacatatcattgcataa _at atgggatttatcttttttctcacttatttttgcggtgaaagtcgagggcatgcaagagtttctcttccagaagccaagaggaga acaaaggtcctaatgctgtactattccaccctttggacgcctcatccaggacgcagaggactctaggtttaacatttt 522 228750 gacccagagtcacctaagagaactcttccaacttaaatgactagggtgtgtaatcagttgcttcttattctgtgtctcagattt _at cctagtccatgacatttaatagtgagtatagagtaggatattctatacattagtatttggcccttggaaacaaagttaaat accatgtcactcagaagactctcaaagtttgtgtataaatggcgaagtatgca ctatgagagattctaatccattcacatcattcttgagttgtgcaaatacacttggctttgatttcacttggtgatctaaattt gtttatttaagctgcaagaaagttacattaatttggaatgtgtcatcacttggacccagtatatcagatttttattga gtaaaatgttaaaaataataagtgtaactcagattctggatgttcgagtttacaatacattgcctgt aataaaagctgattctgaagtgcatttttcttgacttactttggcag 523 228766 atgcacgtacaaatttcttaacctgttatcaatgtctgagctacataattatctttctagttggagtttgttttaggtgtgtac _at caactgacatttcagtttttctgtttgaagtccaatgtattagtgactctgtggctgctctcttcacctgccccttgtggcctg tctacaattctaaatggattttgaactcaatgtcgtcgcttctggatcctgcatataccaatagcattacctatg acttttttttcctgagctattttcactgagctgagctaatgaactaaaactgagttatgtttaatatttgtatcaa atacataaaaggaatactgctattccttttgtggctcaaaggtagctgcatt 524 228846 ggaatcttttccaataaccagctaaagatttgcactgaaatacaacttgtatgccttttgcatttttaaagcctgcttcctggat _at ttaagcagagtgatagtgttcaaagagccagttcagcctgtaacatatttgaaaaagatatgtctgcacttt gaggtcccttttgaatgccattcactagacctctcaagcattttgtttcattgctacatccaagcg cctcacaagtccacaatgcgggacagcatcaaaagctcaagactttgnaaaaagcttgtgggcttgcactgggggagggaaggga acaaaatttgtgtacttctttgtttaatttagaaataaggcatccaagagatgccattattttctgtgtttcaattgttgtg cctttgagttaaactgcatttttgtcttttggttgaaatctgaaatgtactgtcccaatat 525 228854 ctccttatctgttctagttccgaagcagtttcactcgaagttgtgcagtcctggttgcagctttccgcatctgccttcgtttcgt _at gtagattgacgcgtttctttgtaatttcagtgtttctgacaagatttaaaaaaaaaaaaaaggaaaaaaaaagaaaaaatg aatttactgctgcaggtttttttctctctccatgtgtcactaagtgaagtttgtgccttctatagcaaagagaatat tattacatcctactaacagtagatttttttgtagtgaacattttttgtatttttatttataagtctcataagaaaaat cagcaatgttcagttgtatacttgaatctgcagttaga 526 228885 aataggtcttgcaggtttccttttgaattttaagtatcataaatattattaagtaaataatacggggtgtcagtaatatctgca _at gaatgaatgcagtctttcatgctaatgagttagtctggaaaaataaagtcttattttctatgttttattcatagaaatgga gtattaatttttaatattttcaccatatgtgataacaaaggatctttcatgaatgtccaagg gtaagtcagtattaattaatgctgtattacaaggcaatgctaccttctttattccccctttgaactacctttgaagtcact atgagcacatggatagaaatttaacttttttttgtaaagcaagcttaaaatgtttatgtatacatacccagcaactt ttataaatgtgttaaacaattttactgatttttataataaatattttggtaagattttgaataatatgaattcaggca gatatactaaactgcttttatttacttgtttagaaaattgtatatatatgtttgtgtatcctaacagctgctatgaa 527 228961 gagaacatcagatctaatagagcatagtgatactatttaatttaaccaaagtctctagtgaatatttcanctttgaatgtaaact _at aacaaataaacctgaccaccaaggagattgtttgcccagagtttcaaagcacattgtctacaaatggaaattgaaataatttat aaaatattgacgttactatgttttttaaaaagttcctaattttttcactaa atggaggaaactattagnattgttaaatatggtagatattaatattcctcttagatgaccagtgattccaattgtcccagttt gaaataagtaccctgtgagtatgagataaattagtgacaatcagaacaagtttcagtatcagatgttcaagaggaa gttgctattgcattgattttaatatttgtacataaacactgatttttttgagcattattttgtat ttgttgtactttaatacctggtgtacagttccagaaa 528 229070 gaaggatgctgaggacctagatgagaagttacctgcaaaaggcaaaagggttacttagtgtcagaaccaaggcaatgacttctct _at ctcccagatctcctagctactggtcctgggccanntttttttttttaaataatcccaacntttctttaaaagacaagcattt cagtaagctagttattttcatgggttgctcatccatttttttcagtgatctaaaaatgtagggagatggctactactgaa gttgtctgtctacttgggataatagcaaattaattgaagacaatgggaaagtaagttataaaaaatactgggaaatctg tttctcttctgagcaagcattcagggcaggtataaacatcaaacatagtgacattgtcaaaacctcttccatt 529 229254 ggaaagagaaacgtggctcaagtgctggctcaccttctagctgtgtggccctgggcaggttactgaggctcttccaanctcactt _at ttcacatgtaaaatggcatttctaaaagtacctaccctacctcaaaggaattctgaaaaaagtaagtgaatttgtnannna agcaaagcactcacaatatgcctgacacacaaactgcttaataaatgttagtaatttttaaaacctcctca taagcggcttagaaattattcatgtttggtacatatttattgcaagtcaagcagatccaacttttttgaaagctggtggtcta ggagtatagttttaattatatttgtaaatactcaaaagtattagatgccagtctaatttaaatgcagtagactgtag cgagtaactgacctgggcaatg 530 229510 gggactcagttcttagagaagtcttttggtcttagagttcatcaagcagagaaggggaaggacatggtccaggaaaataaatca _at gcacacaaagagatggggtcttgagggtgcatagtacattctggacagccagttacctgggatgagttgggagggagga gaataaggacaaaagaccatctgggcaaaaatcacgaaggggtatgtgtgtcatgtaaaggtgtgccatgatagtta ttcatattgctattgtaatattaatatatagtaattaactacacatgacacagctttacatgaccttaagtagttatc aacattaccataatagtaatattaataactacaataagagccattattattcacttgagg 531 229659 gttagcaagtgccagcttgtaggctggttgaagtacagaactcagaggaaaaaagaaattaaattttagctttctggagagcag _s_at cccctctctggcaccatcaaacacttctttgtttcccttcaacttggaactcttcaaacatcaggggttgtgagggtttg gccattcttttatcttgggtccatgtgagtgacagaaatggtgcggcctgggaaagatctccctcctttacattttctcttct ccctcctcctccttattctaaaactgtgcctccaacagaggggcaggggctcttgtagagagatccctggcccaggacag gagatgccaaatctaatttatctcactgagggc 532 229831 tttcctaccaatttcacattttgcagaaacttgttcacatttccaacaatatcagaattagaaaacagttcagataacaagaaag _at attaaaaattagggaaattctgatatcaccataaagcactattttacatttagagattacatttaagataaagtcatca tacacaaaaacaataaatatttataactttctctataaggtccgcatatactgtat atattgaaacaatctgaatgactagtagatttcatatgaccattgttatttccactttctccaatacttgtattttatgctaca tgtaatgaagttggacctttttattatttagtaattcctatatgttcctatacttttcattttcaanatgattgctctat tgtttcatgttgtttctagcaatatatctccatgagatatgcactttgtttcatattgaaaagtataaaattt atctttcaattcctgtgtgtgtatcctatggttatctgtatgtat 533 229839 tcccaacccggttctggcaaagaatccagttatcccttccatgaagacgcacataactctcttacttggtctttccattaggga _at caacataagtcttgttttacatcaaataaaaacaatgttaaaaagtgtgtgaaccttaaaaatggaagtctactagtttacata cctacttcagaggacatggaaatgaccatgggcctgcatttcagggaccaaagcaaattaggcctggcctaaaata catcagaccttttg 534 230087 gttgaccccaactttggaactcagatcataggatctcccagaggtttcaggtgttcctaagaagcttctaaaggaagttttggaa _at gaaagactaataggtgtaaacatataaacatatatattatatatagctatatatatttaaagagatctctacatatatatata tataaatacaactactgtactctctgcatctgtacaaagtatgagttaaac tgcccaggtagtgtgagatacgtaatgcatgaatgtgaatatcctgaaatctgccttcttagcaacgtgccgcgtgtactggag agaggacagttgctcctgggagttctctcaatgggcaaatgtacaagttgatgccgtcttatccaccaacaagccatta aggttggtttcctgctgagacttttgtaccggaagcgagaccggcagcactgggggtgtccatatgccacttatgagg 535 230264 ggccaaggcacatttgactcctgagatgaattttttgtggtcataatcaaatacttagttgtttttgatgccccaaaataaagtg _s_at agaatggtaatttgccaggaattcttcataacagtatcttacaaaaaacgtgttgctctcttcacagtattatgtgtaaagtca ttgtttaaagcacgaatgttccctctggggtacttgttaaagctaaatttattttgcttccctccacttagaagtgctgca cactttacagcagcttcctttctttccatngcactgcctagttaacagaagtcttataaaaatttaaaaagacacatttct tacaaaaaagagttgaatgaggtaaaatggcattagatggctctatattttttaaagctatgtaattgttcagcgtcactt ttctaagtacttatacatatctaaacatgtcttcatggtttatattttcacttatatatgctgggctggattaagctttgt 536 230595 ggggcagagggactatgttgtgagcctngcnaaagaagnttgtgtggggactgtgggcagtgaatgcgttgggaacaatatgga _at aaactgggagctgccttggaatctacagggccgnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnggctgaagaaaagaag aatggtattcatgcagttcccattttacagatgaaaacaagaggactttttctgtgaagtcaagaaagtggttacaaactt tcagcctgtccgaattatgtattgcccctcccctttttattaataacattgaagtgtgatgggatggtcaaccactgaagc cgtctgttgaaacctgctgggactttttagccattctcttcaacataaagaatgggtgtttttggagggggtgagaggaatg gggaaatgttgtcaaagagtacaatgttttagttgagacaggaggaatatattttgttgagatctacagcacagcat 537 230788 gatagcgaatgcactcagggtcagcagtggagtttaaaaattgtctcttttcaacttatttaaatgacagcacctgagaagagga _at accgttttacactggatgtttctcatgtagaacaagaaatctttctggaattgatgtttacatgtctgttgt tggtcatctctcctgtgtcttaaatactttaatgttggaagagcatagtgtttgggctagtgggttt ctgacagcccatgggaatgccctgaaactactgtatctgatgtttgattcgatgaggttccatgttttgttttc 538 230830 gcagctgtggtggtcattataagcatngtccntcctgggaagaagcatccaggcaagcagaaaagaaaagatgcagccaccagaa _at aaagaaactccagaagtcctgcatttggatgaggccaaggatcacaacagcctaaacaacctaagagaaactttgctct cagaaaagccaaacttggcccaggtggaacttgagttaaaagagagagatgtgctgtcagttttccttccggatgtac gcagaaactagagctagtgagggttcagagaagccccatcctaagccagacacatgatgtgggct cagctcagtggcctgaaacctctcaggttttagagtctctcccaagaagccgcttttttc 539 231120 tactagttgttttacactctcttttcttattcttagggcttttgtgtatgtctnactnntntttnaannanntncncnnnnannc _x_at agaccttaanttttatatttttttaaagtngctaacatagcngnaggcacttaagcatttagtcaatgatattggtagaaata gtaaaatacatcctttaaatatatatctaagcatatattttaaaaggagcnaaaataaaaccaaagtgttagtaaattttg atttattagatattttagaaaaataatagaattctgaagttttaaaaatgtcagtaattaatttattttcattttcagaa atatatgcatgcagttatgttttatttgattgttgacttaggctatgtctgtatacagtaaccaa 540 231579 gagtaggttcggtctgaaaggtgtgggcctttatatttgatccacacacgttggtcttttaaccgtgctgancagaaaacaaaa _s_at cnggttaanaananccgggtggnnagntgacagaggnaanccgctnaaataccttcacaataaatagtggcaatatatatata gtttaagaaggctccccatttggcatcgtttaatttaaatgttatgaataagcacagctctcttctccaattttcatcctgca agcaactcaaaannnttnaaannaannttnnnntgtagttattttcaaatctttgcttgataagtattaagaaatantggact tgctgccgtaatttaaagctctgttgantttgtttccgnttgganttttgggggaggggagcactgtgtttatgctggaata tgaagtctgagaccttccggtgctgggaacacacaa 541 231773 ggaacctataaatgtagtttcatctgtcgtcaattactgcagaaaattatgtgtatccacaacctagttattttaaaaattatgt _at tgactaaatacaaagtttgttttctaaaatgtaaatatttgccacaatgtaaagcaaatcttagctatattttaaatcat aaataacatgttcaagatacttaacaatttatttaaaatctaagattgctctaacgtctagtgaaaaaaatatttttaa aatttcagccaaataatgcattttatttataaaaatacagacagaaaattagggagaaacctctagttttgccaataga aaatgcttcttccattgaataaaagttatttcaaattgaannngtncctttcacangtnnatgattaaatctganttct taatnatatatcctatgctgattttcccaaaacatgacccatagtattaaataca 542 231925 tctttttgagtgatagtgccattgaatgagcagtatggaaacagtgttacttgatattttgagctttctcaggtttatctaaat _at cagtggtagcttaacaaaacccagactaattgtgtgtaattgtatttttaataaaaggaaagtacatttcctataatagc atagtactgtttgcatgtaagagtatgcaaaaccttgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtcttagtgtgt ggtaagcatggcagccaactttgtatctgctatttttagtacgagcagagcttcataattgtggtcactagaactgtact taccatggacagttaaaact 543 231975 tctctcagtttaaacatcttaacagagaatttgttactgtttattaaaagaattgcatttggaagcaagaaaacaaccggatt _s_at tgcaatcatgtgaagaaacaataatgcctttattatcaagtgttaagcacaattcttataacaaactgtgataa attctttttgtttttttttcctttgccccattattttcttatgaacaaaccaaaaattcatggtgagca gttgcagtgttggctgatatatcttttatgtacagggaatttgaaaaggacagtggattcatttagaagtgtaactggtgct gtgattatagcaatacatttgttagttgtacttcatctttttcatgctagctttttaaatgttt agttttcctcttgtcatggtcagctgctgaatttacttgaag 544 233565 agattctggccacggctgggaacgttgtcaccctgaccatcatccccagtgtgatctacgagcacatggtcaaaaagttgcctc _s_at cagtcctgctccaccacaccatggaccactccatcccagatgcctgaagccactgcagggcagggcaggcagggggggcttcc cgccctcctgcagcaaagggcaaccaccctcggatgatgggttgcagccggcctgctgcttaaggtgggggctgccatgagg ggggcgtgtccaggagggtgaccatgggatggcttatacacacaggcctccttggagcctc agactccaagctaggctgaggctcaggcagggcccacaggcagccgattctcttgtgctgatttaaatgctggacacggagg caggctgtttaaacgctgcttaaagtcgcaactgggcccctttcaagaaattttgctctaccaggaaaaca gttacacattttaagagaacagagctacgttctttgtgagagctttttccttgccttgacttg ctctttgtcacagactgca 545 234764 gtcaccatctcttgttctggaagcagctccaacatcggaagtaattatgtatactggtaccagcagctcccaggaacggccccc _at aaactcctcatctataggaataatcagcggccctcaggggtccctgaccgattctctggctccaagtctggcacc tcagcctccctggccatcagtgggctccggtccgaggatgaggctgattatta ctgtgcagcatgggatgacagattgagtggttttat 546 234987 gtttactctgagattctgtagtcctaatattgtatcattgtgctgtctgcaaaacaacttgaatctattttcttgcatctttt _at gttacatgtaacgcagctgtactttatgttctttgcaactgtttccattatgagaacgctgtgctatttacaaggttacattt ttcttggccaggcgaggtggtcatgcctgtaatcccagcactttgggaggccaaggtgggcggatcacttgaggtaaagagtt gagaccagcctggctagcatggcgaaacccagtctctactaaaaatancaaaaattagccgggtgaaattagccgggcg 547 235146 ggtgttttaaggttagcacatgcacaaaggaacgagttggtttaaaaagataaatcactgcaaagaatgaaattggcttatt _at cacatcaaaactagataagatgctaaaaaaaaaagatatgaaacagaactaacctatagtttcctgaaatcagtaca gtttaatttataagaagctagaaagtaatgcaccttgattgttttaggaatgatt tatgtgttgcaattttaatttatttaaagcatgtctactgtgtttgtcctaagagaaatatttcaacaaaacgtgctctgtgt ttaagatatgtttaggcagtagttagcaactctgaaagtagaaactggaaatgtttattgtgaggcttgttgcagaatttcc attttgtgagttactacttagtttcatgtcagcctaaaattgtaaattccctgtagatcttcac cccattgtggtgtcatcaatgaatccaaagcaggtgccattattt 548 235766 gcagggtcataatcacacagcagtgccttatatagttgccataagacttcagtgcagtacaacatanttttacngctacatatc _x_at agggcatattctatatggtgtatttgtgttagaataacacattaaatgtctttaaacataaaaataagaatgtttgcatgt ttcagttttcaagaaccaaatgagtaattagctatagattccactggccttaaacatacaattaagtgtatacatgat atagtgcacacacaaaagccacctttaattattgaaataacctgtattctttttggaaatcatttaagtttggtatt gaagtactatattttttgtgcatcaatgtatttttctatttacaagcctatgt 549 235849 ggagatcgtgttctgctttttacatgaggagcagaactgggccatacacgtgttcaagaactaggggagctacctggtagcaa _at gtgagtgcagacccacctcaccttgggggaatctcaaactcataggcctcagatacacgatcacctgtcatatcaggtgag cactggcctgcttggggagagacctgggcccctccaggtgtaggaacagcaacactcctggctgacaactaagccaatat ggccctaggtcattcttgcttccaatatgcttgccactccttaaatgtcctaatgatgagaaactctctttctgaccaatt gctatgtttacataacacgcatgtactcatgcatcccttgccagagcccatatatgtatgcatatataaacatagcacttt ttactacatagctcagcacattgcaaggtttgcatttaagttaaaaaaaaaaagaaaaaaaacctaagggtgaaacgatgc cactttgacgc 550 236300 tgactttcatacacacccagtacatctcaaaggatgctaagggacattttctgccagtagagttctccccctttttnggtgaca _at gcaatattattatgttcacatctaactccagagcttacttcctgtggtgccaatgtatttgttgcaatttactacattttt atatgagcctatttataggtgccattaaactcaggtctttcaaatgaaagagtttctagc ccncttagggaaaaagataattgtttagaaaaccataaaatcaatggtaggaaaagttggaactggttacctggatgccatg gttctctgttaaataaagtaagagaccaggtgnannnnnaannnnnannanngntattttcagcatgctaataaatgtctt tccggttatatatctatctaaaattaacctttaaaatattggtttccttgataaaagcaccactttggcttttgttagctg taatattttgtcatttagattaagacctggttaggctctcaataaaagatgaagacagtagctctgtacagcggataatatc 551 236313 gctagttgcattatactgggtcatgaaaaattatcccttgaaatagatatgaaacatgttacttcatttctggtttaaataa _at cttgtggaatctttcctaatgacaacntgatattaagggaaactaaagaaaatgttattgtggatcccacagtactatatta cactgtttttttttgtttgttttgttagtttttttttatttaaagcaaacctcaaacattattgggt atcaattaccacctggttgtattaaaatagtaacttatcaatgccatgtaaaaattaattccattttcgaagccacctggca gacaggtttagctgtttcatcagcagcctaatatatactgttaaatttgttaaggatttcactttgaaggatacatgc aaaacatatagttactattttcatgagtcctgcttctagctccattgtggaatacagaaaattaaatatac ctgttaagttcgtatctaaacctaagacattaccaaggtttgtacaaattctactacctgacatttattccaaga 552 238143 ctcccctgaagaacgtgtccagcaacgcagagtgccctgcttgttatgaatctaatggaacttcctgtngtgggaagccctgga _at aatgctatgaagaagaacagtgtgtctttctagttgcagaacttaanaatgacattgagtctaagagtctcgtgctgaaag gctgttccaacgtcagtaacgccacctgtcagttcctgtctggtgaaaa caagactcttggaggagtcatctttcgaaagtttgagtgtgcaaatgtaaacagcttaacccccacgtntgcaccaaccactt cccacaacgtgggctccaaagcttccctctacctcttggcccttgccagcctccttcttcggggactgctgccctgag gtcctggggctgcactttgcccagcaccccatttctncttctctgaggtccagagcaccccctgcggtgctgacaccctct ttccctgctctgccccgtttaactgcccagtaagtgggagtcacaggtctccaggcaatgccgacagctgccttgt 553 238750 tttgtccatagaggcttcaagatagataggtaagagnccagtagtgttcataagaagccaatagagagcaggagccactttat _at caggtggcaggtgtcctgggcctccctgctggctagtcccaagcggtggtgttgccaggatgtcttggaggtgataatgggac acacagaggcactgagtctccataggttaaaatgccaccaaaa ctggcctttgcctaatatccctcattgactatttagcatttaatttatttattttcctgacatttctgcaagctttgtattta tatttccactttatagatgaggaaatttgaggctcttagaggtaaaatgacttgcccaggtcacacaggaagtggcagagaca agctttttaaataagaaaaaattaataaaatataatatgagagtaacttaaaatattaataaaccacaattttaaat taattaaccgtgataaccaacattaataaaagttaagataccaaaacactggtgtctaattctttcaac 554 238751 gttctgttgtttatccatgaagcctatatatttctagtgcaaaangcccagtgggtctsaaaacattcttggaggggtttgaca _at cactgctattagtagtgactcataattccacgattccctgggatacagagaaggcaggggggtagtactgtttgaa caaaaatcttcccaagaccctggcaaagagatcttccttaggaatcagtggcatat gcgtttatgttctttaacagggaaagtaaaagtgagcgcacttttttgaagctcataaatactcatgtgactgtaaatttaga aatgttaattaattgggcctaatgtttgatctggaaaagtacttagcagtcaccaggaatttgccttga actgactcgaaccacaaatcagaaccgtatttccacaattta 555 239272 gcactgttaaaatccggctaggccaagatttcccaatgtcttgaagccaatggctaggaaaacagctgagcctgggactggactt _at tgtcagtaacctctcttccctagggcacgggaggagtngggtgaataggacctcttggcttgaggaccatgatt gtgaatacagacatttaattcagaatgacacctacattgatgaattttcattgtacaagtgtttttccagatc aaacacaaaacccatgtaattccttgataaattttcaatgcagggcagataaactgttgctaac 556 241994 gtgatcttggactgtcaattcccctncctgtgatccattttactgcaaacataagggttgcagtaaagggttgtctcacgtctt _at ctgctttaaaagcctataaatatatgacctgaaaactccagttacataaaggatctgcagctatctaaggcttg gttttcttactgtcatatgatacctgggtctaatgaactctgctgagatcacctcaagtttctg cggttggtaaagagaacaagggaagaacaaacatcccttttattgctccaaatggtgatttaatccctacatggtgctgggt ggacaatgtgtcactgtcacatgccttnactgtataaatccaaccttctgccagagagaatctgtggttctggcc atggagggaggatagtggaaatgatatagttggactggtgcttgatgtcacta 557 242317 atgtgattatacttctctttgacttgtcagcttagctttagnngatacactctggtgcccaactattattgtatcagtgaa _at cttnccactttncttttnccttttnctctcaatttttgttgtatcattcctaccttgtgaggacatataatatttacattc tgttgtcatcctcacatttcttagttccacagtttaaatgtatttgaaactcaaaacattcccattaatctcttggtcagc tgaaattaatgatttaatagtttccttaaaaaagactcatggaacaatttccctaaatttttgccatgtcaaatatgttta tctgtagcctttacacagtaaaaacaatttggctagataatacaattctcagttcatat 558 242447 agggcacttctcaacattaattttggaattattcaccatttaaaaattgtcactgctctttttcattactgtagataactg _at agagttagctgttctaggaaaaggccatgtttcagttagtgctatgacttctttttttcgattaaggttgaagcagtgt tctcttagtagcctgaacacttctcaaagcgacttatcactagcggctttaatattgagcttctatatcgttgtgtc cacctcactttttaaggctgttcatacctggcaatattcacttactctgctatttttaaaaactattttaaagtttt aagcacaatgttgactcttctgtaatttcctaaaattatattgttttcctacagacagctcaactttccttgatatgt 559 242601 ctcattattcctttacatgcagaatagaggcatttatgcaaattgaactgcagtttttcagcatatacacaatgtcttgt _at gcaacagaaaaacatgttggggaaatattcctcagtggagagtcgttctcatgctgacggggagaacgaaagtga caggggtttcctcataagttttgtatgaaatatctctacaaacctcaattagttctactctacactttcacta tcatcaacactgagactatcctgtctcacctacaaatgtggaaactttacattgttcgatttttcagcagact 560 243278 ataaatgaccagactttttctaagaaaaatgttgctttaatgcatttcatgaatttttactcttatatcattgcttgctagt _at aatagcaaatctgcttttctgcatctgctttgcgtagctattgtaaggctttgaactaatgtatgtatttattgcttgaactt ctgtgcataccttataaagcataatgtctgacaatttaaatggctcatgtattcttgcttntatcataagctgattatgg ggactatgatcttttgtatacagcaaattttaaactgtagcacaaacatctgtttatgtattggtggaatatacctgtttta tttatcttttttgaggtaaactaatttttgatacttttcattactgtgtactatgttcatactttgaattctct gacgttagaagtcatggttgagaattgtaacagctgttattcgttctgtattcatggctttc 561 200832 aaaagcgaggtggccatgttatgctggtggttgccagggcctccaaccactgtgccactgacttgctgtgtgaccctgggcaagt _s_at cacttaactataaggtgcctcagttttccttctgttaaaatggggataataatactgacctacctcaaagggcagttttga ggcatgactaatgctttttagaaagcattttgggatccttcagcacaggaattctcaagacctgagtattttttataatag gaatgtccaccatgaacttgatacgtccgtgtgtcccagatgctgtcattagtctatatggttctccaagaaactgaatg aatccattggagaagcggtggataactagccagacaaaatttgagaatacataaacaacgcattgccacggaaacatacaga ggatgccttttctgtgattgggtgggattttttccctttttatgtgggatatagtagttacttgtgacaagaa taattttggaataatttctattaatatcaactctgaagctaattgtactaatctgagat 562 201147 gagtcggagatgatgcagcacacacacaattccccagcccagtgatgcttgtgttgaccagatgacctgagtctggagcaagca _s_at cccaggccagaataacagagctttcttagttggtgaagacttaaacatctgcctgaggtcaggaggcaatttgcctgccttg tacaaaagctcaggtgaaagactgagatgaatgtctttcctctcc ctgcctcccaccagacttcctcctggaaaacgctttggtagatttggccaggagctttcttttatgtaaattggataaatac acacaccatacactatccacagatatagccaagtagatttgggtagaggatactatttccagaatagtgtttagctca cctagggggatatgtttgtatacacatttgcatatacccacatgggg 563 201162 ggaatgtcactggtgcccaggtgtacttgagctgtgaggtcatcggaatcccgacacctgtcctcatctggaacaaggtaaaaa _at ggggtcactatggagttcaaaggacagaactcctgcctggtgaccgggacaacctggccattcagacccggggtggcccag aaaagcatgaagtaactggctgggtgctggtatctcctctaagtaaggaagatgctggagaatatgagtgccatgcatcca attcccaaggacaggcttcagcatcagcaaaaattacagtggttgatgccttacatg 564 201163 aggtgaaggtgccgagctataaacctccagaatattattagttgcatggttaaaagtagtcatggataactacattacctgtt _s_at cttgcctaataagtttcttttaatccaatccactaacactttagttatattcactggttttacacagagaa atacaaaataaagatcacacatcaagactatctacaa 565 201185 ctcaaagactctcccgtggatgacggatgaggactctgggctgctggaataggacactcaagacttttgactgccattttgttt _at gttcagtggagactccctggccaacagaatccttcttgatagtttgcaggcaaaacaaatgtaatgttgcagatccgc aggcagaagctctgcccttctgtatcctatgtatgcagtgtgctttttcttgccagc ttgggccattcttgcttagacagtcagcatttgtctcctcctttaactgagtcatcatcttagtccaactaatgcagtcgat acaatgcgtagatagaagaagccccacgggagccaggatgggactggtcgtgtttgtgcttttctccaagtcagcaccc aaaggtcaatgcacagagaccccgggtgggtgagcgctggcttctcaaacggccgaagttgcctctttt 566 201261 tctctctttctgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtgtcttgtgacctcagacctttctcgcttctgagcttg _x_at gtggcctgttccctccatctctccgaacctggcttcgcctgtccctttcactccacaccctctggccttctgccttgagctggg actgctttctgtctgtccggcctgcacccagcccctgcccacaaaaccccagggacagcggtctccccagcctgccctgctca ggccttgcccccaaacctgtactgtcccggaggaggttgggaggtggaggcccagcatcccgcgcagatgacaccatcaaccg ccagagtcccagacaccggttttcctagaagcccctcacccccactggcccactggtggctaggtctccccttatccttctgg tccagcgcaaggaggggctgcttctgaggtcggtggctgtctttccattaaagaaacacc 567 201792 ccaccgctggctgggaggagtcggagactgagacctacacagaggtggtgacagagtttgggaccgaggtggagcccgagttt _at gggaccaaggtggagcccgagtttgagacccagttggagcctgagttcgagacccagctggaacccgagtttgaggaagagga ggaggaggagaaagaggaggagatagccactgg ccaggcattccccttcacaacagtagagacctacacagtgaactttggggacttctgagatcagcgtcctaccaagaccccag cccaactcaagctacagcagcagcacttcccaagcctgctgaccacagtcacatcacccatcagcacatggaaggc ccctggtatggacactgaaaggaagggctggtcctgcccctttgagggggtgcaaacatgactgggacctaagag ccagaggctgtgtagaggctcctgctccacctgccagtctcgtaagagatggggttgctgcagtgttggagtag gggcagagggagggagccaaggtcactcca 568 202237 ctactacatgattggtgagcagaagttctccagcctccccctgggccgggaggcagtagaggctgctgtgaaagaggctgg _at ctacacaatcgaatggtttgaggtgatctcgcaaagttattcttccaccatggccaacaacgaaggacttttctc cctggtggcgaggaagctgagcag 569 202238 tcgtcactgactactcagaccagaacctgcaggagctggagaagtggctgaagaaagagccagaggcctttgactggtccccag _s_at tggtgacctatgtgtgtgatcttgaagggaacagagtcaagggtccagagaaggaggagaagttgagacaggcggtc aagcaggtgctgaagtgtgatgtgactcagagccagccactgggggccgtccccttacccccggctgactgcgtgc tcagcacactgtgtctggatgccgcctgcccagacctccccacctactgcagggcgctcaggaacctcggc agcctactgaagccagggggcttcctggtgatcatggatgcgctcaagagcagctactac 570 202310 tggcctacatggaccagcagactggcaacctcaagaaggccctgctcctccagggctccaacgagatcgagatccgcgccgag _s_at ggcaacagccgcttcacctacagcgtcactgtcgatggctgcacgagtcacaccggagcctggggcaagacagtgattga atacaaaaccaccaagacctcccgcctgcccatcatcgat gtggcccccttggacgttggtgccccagaccaggaattcggcttcgacgttggccctgtctgcttcctgtaaactccctcca tcccaacctggctccctcccacccaaccaactttccccccaacccggaaacagacaagcaacccaaactgaacc ccctcaaaagccaaaaaatgggagacaatttcacatggactttggaaaatatttttttcc tttgcattcatctctcaaacttagtttttatctttgaccaaccgaacatgacca 571 202311 gctccccatttttataccaaaggtgctacatctatgtgatgggtggggtggggagggaatcactggtgctatagaaattgaga _s_at tgcccccccaggccagcaaatgttcctttttgttcaaagtctattatattccttgatattttttntttnttttttttttttt ttgtggatggggacttgtgaatttttctaaaggtgctatttaacatgggaggagagcgtgtgcggctccagcccagcccgct gctcactttccaccctctctccacctgcctctggcttctcaggcctctgctctccgacctctctcctctgaaaccctcctcc acagctgcagcccatcctcccggctccctcctagtctgtcctgcgtcctctgtccccgggtttcagagacaac ttcccaaagcacaaagcagtttttncccctaggggtgggaggaagcaaaagactctgtacctattttgt 572 202404 actttcccatgagtgtgatccacattgttaggtgctgacctagacagagatgaactgaggtccttgttttgttttgttcata _s_at atacaaaggtgctaattaatagtatttcagatacttgaagaatgttgatggtgctagaagaatttgagaagaaat actcctgtattgagttgtatcgtgtggtgtattttttaaaaaatttgatttagcattcatattttccatcttattc ccaattaaaagtatgcagattatttgcccaaagttgtcctcttcttcagattcagcatttgttctttgccagtctcatttt catcttcttccatggttccacagaagctttgtttcttgggca 573 202450 gaacaacgcctgtggcattgccaacctggccagcttccccaagatgtgactccagccagccaaatccatcctgctcttccattt _s_at cttccacgatggtgcagtgtaacgatgcactttggaagggagttggtgtgctatttttgaagcagatgtggtgatactgag attgtctgttcagtttccccatttgtttgtgcttcaaatgatccttcctactttgcttctctccacccatgacctttttca ctgtggccatcaggactttccctgacagctgtgtactcttaggctaagagatgtgactacagcctgcccctgactgtgttgtc ccagggctgatgctgtacaggtacaggctggagattttcacataggttagattctcattcacgggactagttagctttaag caccctagaggactagggtaatctgacttctcacttcctaagttcccttctatatcctcaaggtagaaatgtctatgtttt ctactccaattc 574 202859 gtacccagttaaattttcatttcagataaacaacaaataattttttagtataagtacattattgtttatctgaaagttttaatt _x_at gaactaacaatcctagtttgatactcccagtcttgtcattgccagctgtgttggtagtgctgtgttgaattacggaataat gagttagaactattaaaacagccaaaactccacagtcaatattagtaatttcttgctggttgaaacttgtttattat gtacaaatagattcttataatattatttaaatgactgcatttttaaatacaaggctttatatttttaactttaagat gtttttatgtgctctccaaattttttttactgtttctgattgtat 575 202878 atccgaattctccatatattcactaatcaaagacactattttcatactagattcctgagacaaatactcactgaagggcttgtt _s_at taaaaataaattgtgattggtctgttcttgtagataatgcccttctattttaggtagaagctctggaatccctttattgtgc tgttgctcttatctgcaaggtggcaagcagttcttttcagcagattttgcccactattcctctgagctgaagttc tttgcatagatttggcttaagcttgaattagatccctgcaaaggcttgctctgtgatgtcagatgtaattgtaaatgtcagt aatcacttcatgaatgctaaatgagaatgtaagtatttttaaatgtgtgtatttcaaatttgtttgactaattctggaattac aagatttctatgcaggatttaccttcatcctgtgcatgtttcccaaactgtgaggagggaaggctcagagatcgagcttctcc tctgagttctaacaaaatggtgctttgagggtcagcctttaggaaggtgcagctttgttgtcctttg 576 202917 ggcatcatgttgaccgagctggagaaagccttgaactctatcatcgacgtctaccacaagtactccctgataaaggggaatttc _s_at catgccgtctacagggatgacctgaagaaattgctagagaccgagtgtcctcagtatatcaggaaaaagggtgcagacgtctgg 577 202998 gccagtcttgaccgggatgaggcccacagacaggttgtcatcagcttgtcccattcaagccaccgagctcaccacagacacagt _s_at ggagccgcgctcttctccagtgacacgtggacaaatgcgggctcatcagcccccccagagagggtcaggccgaaccccat ttctcctcctcttaggtcattttcagcaaacttgaatatctagacc tctcttccaatgaaaccctccagtctattatagtcacatagataatggtgccacgtgttttctgatttggtgagctcagacttg gtgcttccctctccacaacccccaccccttgtttttcaagatactattattatattttcacagacttttgaagcacaaat ttattggcatttaatattggacatctgggcccttggaagtacaaatctaaggaaaaaccaacccactgtgtaagtgactcat cttcctgttgttccaattctgtgggtttttgattcaacggtgctataaccagggtcctgggtgacagggcgctcactgagca ccatgtgtcatcacagaca 578 203083 caggaaatagtcactcatcccactccacataaggggtttagtaagagaagtctgtctgtctgatgatggatagggggcaaatct _at ttttcccctttctgttaatagtcatcacatttctatgccaaacaggaacgatccataactttagtcttaatgtacaca ttgcattttgataaaattaattttgttgtttcctttgaggttgatcgttgtgttgttttgctgca ctttttacttttttgcgtgtggagctgtattcccgagacaacgaagcgttgggatacttcattaaatgtagcgactgtcaaca gcgtgcaggttttctgtttctgtgttgtggggtcaaccgtacaatggtgtgggaatgacgatgatgtgaatatttagaat gtaccatattttttgtaaattatttatgtttttctaaacaaatttatcgtataggttgatgaaacgtcatttgttttgcc aaagactgtaaatatttatttatgtgttcacatggtcaaaatttcaccactgaaaccctgcacttagctagaacct 579 203325 cccacctggagctgaatcacatgacctagctgcaccccagcgcctgggcccgccccacgctctgtccacacccangcgccccggg _s_at agcggggccatgcctccagccccccagctcgcccgacccatcctgttcgtgaataggtctcaggggttgggggaggga ctgccagatttggacactatatttttttctaaattcaacttgaagatgtgtatttcccctgaccttcaaaaaatgtt ccaaggtaagcctcgtaaaggtcatcccaccatcaccaaagcctccgtttttaacaacctccaacacgatccattta gaggccaaatgtcattctgcaggtgccttcccgatggattaaag 580 203570 ctggaggacagcacctgtgacttcggcaacctcaagcgctatgcatgcacctctcatacccagggcctgagcccaggctgctat _at gacacctacaatgcggacatcgactgccagtggatcgacataaccgacgtgcagcctgggaactacatcctcaaggtgc acgtgaacccaaagtatattgttttggagtctgacttcaccaacaa cgtggtgagatgcaacattcactacacaggtcgctacgtttctgcaacaaactgcaaaattgtccaatcctgatctccggga gggacagatggccaatctctccccttccaaagcaggccctgctccccgggcagcctcccgccgaggggcccagcc cccaacccacaggcagggaggggcatccctccctgccggcctcagggagcgaacgtggatgaaaaccacaggga ttccggatgccagaccccattttatacttcacttttctctacagtgttgttttgttgttgttggtttttatttt ttatactttggccataccacagagctagattgccc 581 203878 tgccagcgactgtctcagactgggcagggaggctttggcatgacttaagaggaagggcagtcttgggacccgctatgcag _s_at gtcctggcaaacctggctgccctgtctcatccctgtccctcagggtagcaccatggcaggactgggggaactgga gtgtccttgctgtatccctgttgtgaggttccttccaggggctggcactgaagcaagggtgctggggccccatg gccttcagccctggctgagcaactgggctgtagggcagggccacttcctgaggtcaggtcttggtaggtgcctgcatct gtctgccttctggctgacaatcctggaaatctgttctccagaatccaggccaaaaagttcacagtcaaa tggggaggggtattcttcatgcaggagaccccaggccctggaggctgcaacatacctcaatcctgtcc caggccggatcctcctgaagcccttttcgcagcactgctatcctccaaagccattgtaaatgtgtgt acagtgtgtataaaccttcttcttctt 582 204006 gagtacaggtgccagacaaacctctccaccctcagtgacccggtgcagctagaagtccatatcggctggctgttgctccag _s_at gcccctcggtgggtgttcaaggaggaagaccctattcacctgaggtgtcacagctggaagaacactgctctgcataag gtcacatatttacagaatggcaaagacaggaagtattttcatcataattct gacttccacattccaaaagccacactcaaagatagcggctcctacttctgcagggggcttgttgggagtaaaaatgtgtc ttcagagactgtgaacatcaccatcactcaaggtttggcagtgtcaaccatctcatcattctctccacctgggtaccaa gtctctttctgcttggtgatggtactcctttttgcagtggacacaggactatatttctctgtgaagacaaacat ttgaagctcaacaagagactggaaggaccataaacttaaatggagaaaggaccctcaagacaaatgacc 583 204051 aaccagccagtcccaagaagaacattaaaactaggagtgcccagaagagaacaaacccgaaaagagtgtgagctaactagttt _s_at ccaaagcggagacttccgacttccttacaggatgaggctgggcattgcctgggacagcctatgtaaggccatgtgc cccttgccctaacaactcactgcagtgctcttcatagacacatcttgcagcatttttcttaaggctatgct tcagtttttctttgtaagccatcacaagccatagtggtaggtttgcccatggtacagaag 584 204320 gaaaatgtaccttggtgccaccaacccattttgtgccacatgcaagttttgaataaggatgtatggaaaacaacgctgcat _at atacaggtaccatttaggaaataccgatgcctttgtgggggcagaatcacagacaaaagctttgaaaatcataaaga tataagttggtgtggctaagatggaaacagggctgattcttgattcccaattctcaactctccttttcctatttga atttctttggtgctgtagaaaacaaaaaaagaaaaatatatattcataaaaaatatggtgctcattctcatccatc caggatgtactaaaacagtgtgtttaataaattgtaattattagtgtacagttctatactgttatctgtgt ccatttccaaaacttgcacgtgtccctgaattccgctgactctaatttatgaggatgccgaactct gatggcaataatatatgtattatgaaaatgaagttatgatttccgatgaccctaagtcc 585 204475 gaagaactgtctattttctcagtcatttttaacctctagagtcactgatacacagaatataatcttatttatacctcagtttgca _at tatttttttactatttagaatgtagccattttgtactgatataatttagttccacaaatggtgggtacaaaaagtcaagttt gtggcttatggattcatataggccagagttgcaaagatcttttccagagtatgcaactctgacgttgatcccagagagcagc ttcagtgacaaacatatcctttcaagacagaaagagacaggagacatgagtctttgccggaggaaaagcagctcaagaa cacatgtgcagtcactggtgtcaccctggataggcaagggataactcttctaacaca 586 204620 tgccgtgctcccaaaacattttaaatgaaagtattggcattcaaaaagacagcagacaaaatgaaagaaaatgagagcagaaagt _s_at aagcatttccagcctatctaatttctttagttttctatttgcctccagtgcagtccatttcctaatgtataccagccta ctgtactatttaaaatgctcaatttcagcaccgatggccatgtaaataagatg atttaatgttgattttaatcctgtatataaaataaaaagtcacaatgagtttgggcatatttaatgatgattatggagccttag aggtctttaatcattggttcggctgcttttatgtagtttaggctggaaatggtttcacttgctctttgactgtcagcaagactg aagatggcttttcctggacagctagaaaacacaaaatcttgtaggtcattgcacctatctcagccataggtgcagtttgctt ctacatgatgctaaaggctgcgaatgggatcctgatggaactaaggactccaatgtcgaactcttctttgctgc 587 204811 ggggaactgagggcaaggggatatagtgatggggctcagatggactgggaggagggggagggtgatgcattaattaatggcttcg _s_at ttaattaatgtcatgttgcttgtcgctttctcagtgtgtgtgtgtggtccatgcccactgctggtgccagggtgggtgtccat gtgcacccggcctggatgccagctgtgtccttcgggggcgtgcgtgt aactgtagtgtagtcaggtgctcaatggagaatataaacatatacagaaaaatatatattttaagtttaaaaaacagaaaaaca gacaaaacaatccccatcaggtagctgtctaacccccagctgggtctaatccttctcattacccacccgacctggctgccc ctcaccttgggctgggggactggggggccatttccttttctctgccctttttttgttgttctattttgtacagacaag ttggaaaaacaacagcgacaaaaaagtcaagaaactttgtaaaatatcgtgtgtgtgattccttgt 588 205479 cccgaccggtgggcatttgtgaggcccatggttgagaaatgaataatttcccaattaggaagtgtaagcagctgaggtctctt _s_at gagggagcttagccaatgtgggagcagcggtttggggagcagagacactaacgacttcagggcagggctctgatattcc atgaatgtatcaggaaatatatatgtgtgtgtatgtttgcacacttgttgt gtgggctgtgagtgtaagtgtgagtaagagctggtgtctgattgttaagtctaaatatttccttaaactgtgtggactgtga tgccacacagagtggtctttctggagaggttataggtcactcctggggcctcttgggtcccccacgtgacagtgcct gggaatgtacttattctgcagcatgacctgtgaccagcactgtctcagtttcactttcacatagatg tccctttcttggccagttatcccttccttttagcctagttcatccaatcctcactgggtgggg 589 205765 caccacctacctatgatgccgtggtacagatggagtaccttgacatggtggtgaatgaaacactcagattattcccagttgcta _at ttagacttgagaggacttgcaagaaagatgttgaaatcaatggggtattcattcccaaagggtcaatggtggtgattcca acttatgctcttcaccatgacccaaagtactggacagagcctgaggagtt ccgccctgaaaggttcagtaagaagaaggacagcatagatccttacatatacacaccctttggaactggacccagaaactgcat tggcatgaggtttgctctcatgaacatgaaacttgctctaatcagagtccttcagaacttctccttcaaaccttgtaa agaaacacagatccccttgaaattagacacgcaaggacttcttcaaccagaaaaacccattgttctaaaggtggattc aagagatggaaccctaagtggagaatgagttattctaaggacttctactttggtcttcaagaaagctgtgccccaga acaccagagatttcaacttagtca 590 205828 gaaaatcgatgcagccatttctgataaggaaaagaacaaaacatatttctttgtagaggacaaatactggagatttgatgagaa _at gagaaattccatggagccaggctttcccaagcaaatagctgaagactttccagggattgactcaaagattgatgctgtt tttgaagaatttgggttcttttatttctttactggatcttcacagttggagtttg acccaaatgcaaagaaagtgacacacactttgaagagtaacagctggcttaattgttgaaagagatatgtagaaggcacaata tgggcactttaaatgaagctaataattcttcacctaagtctctgtgaattgaaatgttcgttttctcctgcctgtgctgtg actcgagtcacactcaagggaacttgagcgtgaatctgtatcttgccggtcatttttatgttattacagggcattcaaatg ggctgctgcttagcttgcaccttgtcacatagagtgatctttcccaagagaaggggaagcactcgtgtgcaacagac 591 205927 tccacacacggccaggcctgtttatctacactgctgcccactcctctctccagctccacatgctgtacctggatcattctgaagc _s_at aaattccgagcattacatcattttgtccataaatatttctaacatccttaaatatacaatcggaattcaagc atctcccattgtcccacaaatgtttggctgtttttgtagttggattgtttgtattaggattcaagca aggcccatatattgcatttatttgaaatgtctgtaagtctctttccatctacagagtttagcacatttgaacgttgctggttga aatcccgaggtgtcatttgacatggttctctgaacttatctttcctataaaatggtagttagatctggaggtct gattttgtggcaaaaatacttcctaggtggtgctgggtacttcttgttgcatcctgtcaggaggcaga taatgctggtgcctctctattggtaatgttaagactgctgggtgggtttggagttcttggc 592 207173 gaacatccaagtctttcttcttttttaagttgtcaaagaagcttccacaaaattagaaaggacaacagttctgagctgtaattt _x_at cgccttaaactctggacactctatatgtagtgcatttttaaacttgaaatatataatattcagccagcttaaaccc atacaatgtatgtacaatacaatgtacaattatgtctcttgagcatcaatcttgttactgctga ttcttgtaaatctttttgcttctactttcatcttaaactaatacgtgccagatataactgtcttgtttcagtgagagacgcc ctatttctatgtcatttttaatgtatctatttgtacaattttaaagttcttattttagtatacatataaatatca gtattctgacatgtaagaaaatgttacggcatcacacttatatttta 593 207191 aatctcttctagagcacctgctatccccaacttctagacctgctccaaactagtgactaggatagaatttgatcccctaa _s_at ctcactgtctgcggtgctcattgctgctaacagcattgcctgtgctctcctctcaggggcagcatgctaacggggcgacg tcctaatccaactgggagaagcctcagtggtggaattccaggcactgtgactgtc aagctggcaagggccaggattgggggaatggagctggggcttagctgggaggtggtctgaagcagacagggaatgggaga ggaggatgggaagtagacagtggctggtatggctctgaggctccctggggcctgctcaagctcct cctgctccttgctgttttctgatgatttgggggcttgggagtccctttgtcctcatctgagactgaaatgtg gggatccaggatggcttccttcctcttacccttcctccctcagcctgcaacctctatcctggaacctgtcctccctt tctccccaactatgcatctgttgtctgctcct 594 208063 aagaagctaagcctgatctcctgtaaaaacatcatttccctgatggacaccagcggcaatgggaagctggagtttgatgaattca _s_at aagtgttctgggacaagctgaagcagtggattaaccttttccttcggtttgatgctgacaagtccggcaccatgtcta cctatgaactacggactgcactgaaagctgcaggctttcagctgagcag ccacctcctgcagctgattgtgctcaggtatgcggatgaggagctccagctggacttcgatgacttcctcaactgcctggtccg gctggagaatgcgagccgggtgttccaggctctcagtacaaagaacaaggagttcattcatctcaata taaatgagttcatccatttgacaatgaacatctgaggctgccttgtagagatgcagcctgcc cagctgaatcttggcttctggaccttgaccttcagaacttctcttggtgtggaaccattacgcccagggttcactc 595 208782 actcccaagagcaaatccacattcctcttgagttctgcagcttctgtgtaaatagggcagctgtcgtctatgccgtagaatca _at catgatctgaggaccattcatggaagctgctaaatagcctagtctggggagtcttccataaagttttgcatggag caaacaaacaggattaaactaggtttggttccttcagccctctaaaagcatagggctt agcctgcaggcttccttgggctttctctgtgtgtgtagttttgtaaacactatagcatctgttaagatccagtgtccatggaa acattcccacatgccgtgactctggactatatcagtttttggaaagcagggttcctctgcctgctaacaagcccacgtggacc agtctgaatgtctttcctttacacctatgtttttaagtagtcaaacttcaagaaacaatctaaacaagtttctgttgcatat gtgtttgtgaacttgtatttgtatttagtaggcttctatattgcatttaacttgtttttgtaactcctgattcttcct 596 208850 gaagcctcaagttccagtgcagagatcctacttctctgagtcagctgaccccctccccgcaatccctcaaaccttgaggagaa _s_at gtggggaccccacccctcatcaggagttccagtgctgcatgcgattatctacccacgtccacgcggccatggtttat cctcaccctctccgcacacctctggctgtctttttgtactttttgttccagagctgcttctgtc ttaggttttatccttccttttctttgagagttcgtgaagagggaagccaggattggggacctgatggagagtgagagcatg tgaggggtagtgggatggtggggtaccagccactggaggggtcatccttgcccatcgggaccagaaacctggga gagacttggatgaggagtggttgggctgtgcctgggcctagcacggacatggtctgtcctgacagcactcctc ggcaggcatggctggtgcctg 597 208851 aaagcagcgctagtggagggttggagaaggaggtaaggatgagggttcatcatccctccctgcctaaggaagctaaaagcatgg _s_at ccctgctgcccctccctgcctccacccacagtggagagggctacaaaggaggacaagaccctctcaggctgtcccaagct cccaagagcttccagagctctgacccacagcctccaagtc aggtggggtggagtcccagagctgcacagggtttggcccaagtttctaagggaggcacttcctcccctcgcccatcagtgcca gcccctgctggctggtgcctgagcccctcagacagccccctgccccgcaggcctgccttctcagggacttctgcggggcc tgaggcaagccatggagtgagacccaggagccggacacttctcaggaaatggcttttcccaacccccagcccccacccgg tggttcttcctgttctgtgactgtgtatag 598 208937 ttcagccagtcgccaagaatcatgaaagtcgccagtggcagcaccgccaccgccgccgcgggccccacgtgcgcgctgaaggcc _s_at ggcaagacagcgagcggtgcgggcgaggtggtgcgctgtctgtctgagcagagcgtggccatctcgcgctgccggggcg ccggggcgcgcctgcctgccctgctggacgagcagcaggtaaacgtgctgctctacgacatgaacggctgttactcacg cctcaaggagctggtgcccaccctgccccagaaccgcaaggtgagcaaggtggagattctccagcacgtcatcgacta catcagggaccttcagttggagctgaactcggaatccgaagttggaacccccgggggccgagggctgccggtccgggct ccgctcagcaccctcaacggcgagatcagcgcc 599 209218 gattccctgcatcaactaagaaaagcctgttttctttatttcaaacttggtggcgaatgtgttgcgggtcctgttgggctgcttt _at ctgtattgtctcctaaccctctagttttaattggacacttctttgctgttgcaatctatgccgtgtatttttgctttaagtca gaaccttggattacaaaacctcgagcccttctcagtagtggtgctgtattgtacaaagcgtgttctgtaatatttcctcta atttactcagaaatgaagtatatggttcattaagcttaaaggggaaccatttgtgaatgaatatttggaacttaccaagtc ctaagagacttttggaagaggatatatatagcatagtaccataccacttata 600 209395 gctgtggggatagtgaggcatcgcaatgtaagactcgggattagtacacacttgttgatgattaatggaaatgtttacagatcc _at ccaagcctggcaagggaatttcttcaactccctgccccctagccctccttatcaaaggacaccattttggcaagctct atcaccaaggagccaaacatcctacaagacacagtgaccatactaattataccccctgcaaagcc agcttgaaaccttcacttaggaacgtaatcgtgtcccctatc 601 209396 tcaccaatgccatcaaggatgcactcgctgcaacgtagccctctgttctgcacacagcacgggggccaaggatgccccgtccccc _s_at tctggctccagctggccgggagcctgatcacctgccctgctgagtcccaggctgagcctcagtctccctcccttggggcctatg cagaggtccacaacacacagatttgagctcagccctggtgggcagagaggtagggatggggctgtggggatagtgaggcatcgc aatgtaagactcgggattagtacacacttgttgatgattaatggaaatgtttacagatccccaagcctggcaagggaatttctt caactccctgccccctagccctccttatcaaaggacaccattttggcaagctctatcaccaaggagccaaacatcctacaag acacagtgaccatactaattataccccctgcaaagccagcttgaaaccttcact 602 209596 tccaacctccttcaaattcagtcaccactgttatattaccttctccaggaaccctccagtggggaaggctgcgatattagatt _at tccttgtatgcaaagtttttgttgaaagctgtgctcagaggaggtgagaggagaggaaggagaaaactgcatcataactttac agaattgaatctagagtcttccccgaaaagcccagaaacttctctgcagtatctggcttgtccatctggtctaaggtggctgc ttcttccccagccatgagtcagtttgtgcccatgaataatacacgacctgttatttccatgactgctttactgtattttt 603 209875 gaatggtgcatacaaggccatccccgttgcccaggacctgaacgcgccttctgattgggacagccgtgggaaggacagttatgaa _s_at acgagtcagctggatgaccagagtgctgaaacccacagccacaagcagtccagattatataagcggaaagctaatgatgagagca atgagcattccgatgtgattgatagtcaggaactttccaaagtcagccgtgaattccacagccatgaatttcacagccatgaaga tatgctggttgtagaccccaaaagtaaggaagaagataaacacctgaaatttcgta tttctcatgaattagatagtgcatcttctgaggtcaattaaaaggagaaaaaatacaatttctcactttgcatttagtcaaaag aaaaaatgctttatagcaaaatgaaagagaacatgaaatgcttctttctcagtttattggagaatgtg tatctatttgagtctggaaataactgatgtgtttgataattagtttagtttgtggcttcatggaa 604 209955 acagattccaaggtgacaaactcctctatgcagtgtatcgaaagctgggtgtttatgaagttgaagaccagattacagctgtcag _s_at aaaattcatagaaatgggtttcattgatgaaaaaagaatagccatatggggctggtcctatggaggatacgtttcatcact ggcccttgcatctggaactggtcttttcaaatgtggtatagcagtggct ccagtctccagctgggaatattacgcgtctgtctacacagagagattcatgggtctcccaacaaaggatgataatcttgagca ctataagaattcaactgtgatggcaagagcagaatatttcagaaatgtagactatcttctcatccacggaacagcagatg ataatgtgcactttcagaactcagcacagattgctaaagctctggttaatgcacaagtggatttccaggcaatgtggtactc tgaccagaaccacggcttatccggcctgtccacgaaccacttatacacccacatgacccacttcctaaagcagtg 605 210095 tcttttgtcctccttagcacaatgtaaaaaagaatagtaatatcagaacaggaaggaggaatggcttgctggggagcccatccag _s_at gacactgggagcacatagagattcacccatgtttgttgaacttagagtcattctcatgcttttctttataattcacacatatat gcagagaagatatgttcttgttaacattgtatacaacatagccccaaatatagtaagatctatactagataatcctagatga aatgttagagatgctatatgatacaactgtggccatgactgaggaaaggagctcacgcccagagactgggctgctctcccg gaggccaaacccaagaaggtctggcaaagtcaggctcagggagactctgccctgctgcagacctcggtgtggacacacgct gcatagagctctccttgaaaacagaggggtctcaagacattctgcctacctattagc 606 210511 aaaggagcagtcgcacagacctttcctcatgctgcaggcccggcagtctgaagaccaccctcatcgccggcgtcggcggggcttg _s_at gagtgtgatggcaaggtcaacatctgctgtaagaaacagttctttgtcagtttcaaggacatcggctggaatgactggatca ttgctccctctggctatcatgccaactactgcgagggtgagtgcccgagccatatagcaggcacgtccgggtcctcactgtcc ttccactcaacagtcatcaaccactaccgcatgcggggccatagcccctttgccaacctcaaatcgtgctgtgtgcccaccaa gctgagacccatgtccatgttgtactatgatgatggtcaaaacatcatcaaaaaggacattcagaacatgatcgtggaggagt gtgggtgctcatagagttgcccagc 607 211571 acaagcatcctgtctcacgaagaacaaatgtttgttaatcgtgtgggccatgattatcagtggataggcctcaatgacaagatgt _s_at ttgagcatgacttccgttggactgatggcagcacactgcaatacgagaattggagacccaaccagccagacagcttctttc tgctggagaagactgtgttgtaatcatttggcatgagaatggccag tggaatgatgttccctgcaattaccatctcacctatacgtgcaagaaaggaacagttgcttgcggccagccccctgttgtagaa aatgccaagacctttggaaagatgaaacctcgttatgaaatcaactccctgattagataccactgcaaagatggtttcattc aacgtcaccttccaactatccggtgcttaggaaatggaagatgggctatacctaaaattacctgcatgaacccatctgcatac caaaggacttattctatgaaatactttaaaaattcctcatcagcaaaggacaattcaataaatacatccaaa catgatcatcgttggagccggaggtgg 608 211966 tggtgatgtctgctactatgccagccggaacgacaagtcctactggctctctaccactgcgccgctgcccatgatgcccgtggcc _at gaggacgagatcaagccctacatcagccgctgttctgtgtgtgaggccccggccatcgccatcgcggtccacagtca ggatgtctccatcccacactgcccagctgggtggcggagtttgtggatc ggatattccttcctcatgcacacggcggcgggagacgaaggcggtggccaatcactggtgtcaccgggcagctgtctagaggac ttccgcgccacaccattcatcgaatgcaatggaggccgcggcacctgccactactacgccaacaagtacagcttctggctg accaccattcccgagcagagcttccagggctcgccctccgccgacacgctcaaggccggcctcatccgcacacac atcagccgctgccaggtgtgcatgaagaacctgtgagccggcgcgtgccaggaagggccattttggtgc ttattcttaacttattacctcaggtgccaacccaaaa 609 211980 gaaagactgtgctgtcctttaacataggtttttaaagactaggatattgaatgtgaaacatccgttttcattgttcacttctaa _at accaaaaattatgtgttgccaaaaccaaacccaggttcatgaatatggtgtctattatagtgaaacatgtactttgagct tattgtttttattctgtattaaatattttcagggttttaaacactaatcacaaactgaatga cttgacttcaaaagcaacaaccttaaaggccgtcatttcattagtattcctcattctgcatcctggcttgaaaaacagctctg ttgaatcacagtatcagtattttcacacgtaagcacattcgggccatttccgtggtttctcatgagc tgtgttcacagacctcagcagggcatcgcatggaccgcaggagggcagattcggaccact 610 211981 tcggctactcttttgtgatgcacaccagcgctggtgcagaaggctctggccaagccctggcgtcccccggctcctgcctggagga _at gtttagaagtgcgccattcatcgagtgtcacggccgtgggacctgcaattactacgcaaacgcttacagcttttggctcgccac catagagaggagcgagatgttcaagaagcctacgccgtccaccttgaaggcaggggagctgcgcacgcacgtcagccgctgc caagtctgtatgagaagaacataatgaagcctgactcagctaatgtcacaacatggtgctacttcttcttctttttgttaac agcaacgaaccctagaaatatatcctgtgtacctcactgtccaatatgaaaaccgtaaagtgccttataggaatttgcgtaa ctaacacaccctgc 611 212344 ggaaaacacctcatttgaccttgccagctgaccttcaaaccctgcatttgaaccgaccaacattaagtccagagagtaaacttga _at atggaataacgacattccagaagttaatcatttgaattctgaacactggagaaaaaccgaaaaatggacggggcatgaagagac taatcatctggnaaaccgatttcagtggcgatggcatgacagagctagagctcgggcccagccccaggctgcagcccattcgc aggcacccgaaagaacttccccagtatggtggtcctggaaaggacatttttgaagatca actatatcttcctgtgcattccgatggaatttcagttcatcagatgttcaccatggccaccgcagaacaccgaagtaattcca gcatagcggggaagatgttgaccaaggtggagaagaatcacgaaaaggagaagtcacagcacctagaaggcag cgcctcctcttcactctcctctgattagatgaaactgttaccttacccta 612 212353 aatatccttgttgtgtattaggtttttaaataccagctaaaggattacctcactgagtcatcagtaccctcctattcagctcc _at ccaagatgatgtgtttttgcttaccctaagagaggttttcttcttatttttagataattcaagtgcttagataaattatgt tttctttaagtgtttatggtaaactcttttaaagaaaatttaatatgttatagctgaatctttttggtaactttaaat ctttatcatagactctgtacatatgttcaaattagctgcttgcctgatgtgtgtatcatcggtgggatgacagaacaa acatatttatgatcatgaataatgtgctttgtaaaaagatttcaagttattaggaagcatactctgttttttaatca 613 212354 gtgtgcacacggagactcatcgttataatttactatctgccaagagtagaaagaaaggctggggatatttgggttggcttg _at gttttgattttttgcttgtttgtttgttttgtactaaaacagtattatcttttgaatatcgtagggacataa gtatatacatgttatccaatcaagatggctagaatggtgcctttctgagtgtctaaaacttgacacccctgg taaatattcaacacacttccactgcctgcgtaatgaagttttgattcatttttaaccactggaatttttcaatgccgtca ttttcagttagatgattttgcactttgagattaaaatgccatgtctatttgattagtcttatttttttatttttac aggcttatcagtctcactgttggctgtcattgtgacaaagtcaaataaacccccaaggacgacacacagtat ggatcacatattgtttgacattaagcttttgccagaaaatgttgcatgtgttttacctcgactt 614 212488 gaaaggcgatctcttcactgtgaaaagttgcccgggtgcagcgccttttccttctaccatgggaaatgcaggctgggcccttggg _at gtgagcctgcggggctctggtgctgtccccgacccccaccaccaccagaatgcagttccagcttaggaagccacaaacaagccac ccaggaggaacaaaacaccgccagcgtggattttcc aaatttccctggaaagtaagtctcgctcttgccaaagaaaagtctggcttggagagtctctggagcccaggatgccagcatgtg ccaatgactgtcaccttcatctcttcaaaagaaaagccatagccgaggactgtcccgcgacccccgtggactgcgtctaggt catgtgattctgttttcatttctcatcccatccaatttgtccttttctcctgtcattttcttcctctgtggtcccttcaa agttgttataatttgtactgaacttcaaaatgtgtcccgttctccccagaccactctagccacagtatatt 615 212489 attgaaaagcaggtaccagtgccccttttcagacagtttttgattcgctctagacnttttttnttttttaatagggagggaaaa _at aatttgataancttntttctacatgcacttaagactaaaacacaggtttggattaattttatttgcttcctttttccgcttt tcttcccgcagagcctgatgggagaatgtccagggcagggaaaccacattttttgtag gtgataactcaatgaaaattggtgcttattttttacacttctctcttgtggctctcttgtggtgctatctgttttaaggtctc cttgaaggcgcactggggtccctggccatgcctcgttctccctgctttctttatcctgttattgcctccacagtctgag ccaaggactctaagatcaatgcacgtcactttccntccactgggcaggatagccaagcacactccctcctgcgctctc ccgccccggtgcgtccactcccgagggctgttatgaggactgggttgtgcctacttgatttgaaaacacacac 616 213106 acttctcagcaaataaatctcccttaagtaggaaanctagatttcatattngcttnattgaattaacagcaactttccacag _at gtaaatctgttcttgcaaagatgtgagcagaatagttaaaaataatatttttatgtttcatggttctaaatggaagccat aaatgcagtaaatactatctgttgtttaactactttaatcgtcattnacattttcaagttt attaggttaagaaaaacagggcagccttggaaggcagctactacagaaaactgcagttttgcgttaaagataaagtagtatt ttcagctccctgaaaaaccattcctgctgaaactgctgtagaaattgtgaagctgcatgagtggagagtattgaatct gtggttatagtagttttctcaggtttgtttatcttgatgtttgatgcactgtgttttatagttattaaaattgagta atattatttctatgcagtgttatgtgtcattggccttttgtgaatgtgcatgttttaaactgcaaattttaaacattttgt cctctaattgttat 617 213125 gaatgagtattcctatacgacccagatagactacaaccccaaggaccgcctgctctatgcctgggacaatggccaccaggtcac _at ttaccatgtcatctttgcctactgacacccttgtccccacaagcagaagcacagaggggtcactagcaccttgtgtgtatg tgtgtgcgcgcacgtgtgtgtaggtgggtatgtgttgtttaaaaatatatattattttgtataatattgcaaatgtaaaatg acaatttgggtctatttttttatatggattgtagatcaatccatacgtgtatgtgctggtctcatcctccccagtttatat ttttgtgcaaatgaacttctccttttgaccagtaaccaccttccttcaagccttcagcccctccagctcca agtctcagatctcgaccattgaaaaggtttcttcatctgggtcttgcaggaggcaggcaacac 618 213524 gtgctcggcctgatggagactgtgtgcagccccttcacggccgccagacgtctgcgggaccaggaggcagccgtggcggagct _s_at gcaggccgccctggagcgacaggctctccagaagcaagccctgcaggagaaaggcaagcagcaggacacggtcctcggcggcc gggccctgtccaaccggcagcacgcctcctagga actgtgggagaccagcggagtgggagggagacgcagtagacagagacagactgagaaggaagggagagacagagggggcgcgc gcacaggagcctgactccgctgggagagtgcaggagcacgtgctgttttttatttggacttaacttcagagaaaccgctgac atctagaactgacctaccacaagcatccaccaaaggagtttgggattgagtttntgctgctgtgcagcactgcat tgtcatgacatttccaacactgtgtgaattatctaaatgcgtctaccattttgcactagggag 619 213869 cacagcctccaagtcaggtggggtggagtcccagagctgcacagggtttggcccaagtttctaagggaggcacttcctccc _x_at ntcgcccatcagtgccagcccctgctggctggtgcctgagcccctcagacagccccctgccccgcaggcctgccttctc agggacttctgcggggcctgaggcaagccatggagtgagacccagg agccggacacttctcaggaaatggcttttcccaacccccagcccnccacccggtggttcttcctgttctgtgactgtgtatagt gccaccacagcttatggcatctcattgaggacaaagaaaactgcacaataaaaccaagcctctggaatctgtcctcgtgtcca cctggccttcgctcctccancagtgcctgcctgnccccncttcgctggggtctccacgggtgaggctggggaacgccacc tcttcctcttccctgacttctccccaaccacttagtagcaacgctaccccaggggctaatgactgcacactg ggcttcttttcagaatgaccctaacgagacacatttgcccaaa 620 213905 cacaaaaccccagggacagcggtctccccagcctgattgctcangccttgcccccaaacctgtactgtcccggaggaggt x_at tgggaggtggaggcccagcatcccgcgcagatgacaccggttttcctagaagcccctcacccccactggcccactggtg _ gctaggtctccccttatccttctggtccagcgcaaggaggggctgcttctgaggtcggtggctgtctttc cattaaagaaacaccgtg 621 214234 gaatgaagaaaagtcgcctcaacgacaaacaaaagcaccgactagatttccttcagctgatgattgactcccagaatt _s_at cgaaagaaactgagtcccacaaagctctgtctgatctggagctcgcagcccagtcaataatcttcatttt tgctggctatgaaaccaccagcagtgttctttccttcactttatatgaactggccactcaccctga tgtccagcagaaactgcaaaaggagattgatgcagttttgcccaata 622 214235 ggtgaggggatgacccctggagatgaagggaagaggtgaagccttagcaaaaatgcctcctcaccactccccaggagaattttt _at ataaaaagcataatcactgattccttcactgacataatgtaggaagcctctgaggagaaaaacaaagggagaaacatagagaa cggttgctactggcagaagcataagatctttgtacaatattgctggccctggttcacctgtttactgttatcacaata 623 214247 acttaggtaattgtagggcgaggattataaatgaaatttgcaaaatcacttagcagcaactgaagacaattatcaaccacgtg _s_at gagaaaatcaaaccgagcagggctgtgtgaaacatggttgtaatatgcgactgcgaacactgaactctacgccactccaca aatgatgttttcaggtgtcatggactgttgccaccatgtattcatccagagttcttaaagtttaaagttgcacatgattg tataagcatgctttctttgagttttaaat 624 215646 tctcacctatacgtgcaagaaaggaacagttgcttgcggccancccctgttgtagaaaatgccaagacctttggaaagat _s_at gaaacctcgttatgaaatcaactccctgattagataccacntgcaaagatggtttcattcaacgtcaccttcca actatccggtgcttaggaaatggaagatgggctatacctaaaattacctgcatgaacc 625 217430 agggcctaagggtgacagaggtgatgctggtcccaaaggtgctgatggctctcctggcaaagatggcgtccgtggtctga __x_at ccggccccattggtcctcctggccctgctggtgcccctggtgacaagggggaccccattcccgaggagctttatgag 626 217763 aacattgtaatggccatcgctggaaacaagtgcgacctctcagatattagggaggttcccctgaaggatgctaaggaata _s_at cgctgaatccataggtgccatcgtggttgagacaagtgcaaaaaatgctattaatatcgaagagctctttcaagga atcagccgccagatcccacccttggacccccatgaaaatggaaacaatggaa caatcaaagttgagaagccaaccatgcaagccagccgccggtgctgttgacccaagggcgtggtccacggtacttgaa gaagccagagcccacatcctgtgcactgctgaaggaccctacgctcggtggcctggcacctcactttgaga agagtgagcacactggctttgcatcctggaaggcctgcagggggcggggcaggaaatgtacctgaaaagga ttttagaaaaccctgggaaacccaccacaccaccacaaaatggcctttagtgt 627 218211 gccacaccttcgcgaaacctgtggtggcccaccagtcctaacgggacaggacagagagacagagcagccctgcactgt _s_at tttccctccaccacagccatcctgtccctcattggctctgtgctttccactatacacagtcaccgtcccaatgagaaa caagaaggagcaccctccacatggactcccacctgcaagtggacagcgaca ttcagtcctgcactgctcacctgggtttactgatgactcctggctgccccaccatcctctctgatctgtgagaaacag ctaagctgctgtgacttccctttaggacaatgttgtgtaaatctttgaaggacacaccgaagacctttatact gtgatcttttacccctttcactcttggctttcttatgttgc 628 218638 ctgccccgagctcgaagaagaggctgagtgcgtccctgataactgcgtctaagaccagagccccgcagcccctggggcccccg _s_at gagccatggggtgtcgggggctcctgtgcaggctcatgctgcaggcggccgaggcacagggggtttcgcgctgctcctgac cgcggtgaggccgcgccgaccatctctgcactgaagggcc ctctggtggccggcacgggcattgggaaacagcctcctcctttcccaaccttgcttcttaggggcccccgtgtcccgtctgc tctcagcctcctcctcctgcaggataaagtcatccccaaggctccagctactctaaattatggtctccttataagttattg ctgctccaggagattgtccttcatcgtccaggggcctggctcccacgtggttgcagatacctcagacctggtgctctag gctgtgctgagcccactctcccgagggcgcatccaagcgggggccacttgagaagtgaataaatggggcggtttcggaa gcgtcagtgtttccatgttatgg 629 219955 gaagttgcaacattcgtttgataggaattccagaaaaggagagttatgagaatagggcagaggacataattaaagaaata _at attgatgaaaactttgcagaactaaagaaaggttcaagtcttgagattgtcagtgcttgtcgagtacctagtaaaattg atgaaaagagactgactcctagacacatcttggtgaaattttggaattctagtgataaagagaaaataataagggct tctagagagagaagagaaattacctaccaaggaacaagaatcaggttgacagcagacttatcactggacacact ggatgctagaagtaaatggagcaatgtcttcaaagttctgctggaaaaaggctttaatcctagaatcctatat ccagccaaaatggcatttgattttaggggcaaaacaaaggtatttcttagtattgaagaatttagagatt atgttttgcatatgcccaccttgagagaattactggggaataatataccttagcacgccagggtgactaca 630 221011 gagtggttcatccatactctcattccctcgcctccccttgtggacgggggtcttgccttttcaattcctgtgttttggtgtct _s_at tcccttatctgctaccctgaatcacctgtcctggtcttgctgtgtgatgggaacatgcttgtaaactgcgtaacaaatcta ctttgtgtatgtgtctgtttatgggggtggtttattatttttgctggtccctagaccactttgtatga ccgtttgcagtctgagcaggccaggggctgacagctaatgtcaggaccctcagcggtggagcctgctggggggacccagct gctcttggacaagtggctgagctcctatctggcctcctcttttttttttttcaagtaatttgtgtgtatttc taactgattgtattgaaaaaattcctagtatttcagtaaaaatgcctgttgtgagatgaacctcctgt aacttctatctgttcttttttgaggctcaggga 631 221729 tggaattagaccatttggcctttgaactttcataggaaaaatgacccaacatttcttagcatgagctacctcatctctagaa _at gctgggatggacttactattcttgtttatattttagatactgaaaggtgctatgcttctgttattattccaagactgg agataggcagggctaaaaaggtattattatttttcctttaatgatggtgctaaaattcttcctata aaattccttaaaaataaagatggtttaatcactaccattgtgaaaacataactgttagacttcccgtttctgaaagaaaga gcatcgttccaatgcttgttcactgttcctctgtcatactgtatctggaatgctttgtaatacttgcatgcttcttaga ccagaacatgtaggtccccttgtgtctcaatactttttttttcttaattgcatttgttggctctattttaattt 632 221730 tagattccggtatatcgttcttcaagacacttgctctaagcggaatggaaatgtgggcaagactgtctttgaatatagaacac _at agaatgtggcacgcttgcccatcatagatcttgctcctgtggatgttggcggcacagaccaggaattcggcgttgaaattg ggccagtttgttttgtgtaaagtaagccaagacacatcgacaatgagcaccaccatcaatgaccaccgccattcacaag aactttgactgtttgaagttgatcctgagactcttgaagtaatggctgatcctgcatcagcattgtatatatggtctt aagtgcctggcctccttatccttcagaatatttattttacttacaatcctcaagttttaattgattttaa atatttttcaatacaacagtttaggtttaagatgaccaatgacaatgaccacctt 633 221731 tttcagcaccgatggccatgtaaataagatgatttaatgttgattttaatcctgtatataaantaaaaagtncncaatgagttt _x_at ngggcatatttaatgatgattatggagccttagaggtctttaatcattggttcnggctgcattatgtagtttaggctggaa atggtttcacttgctctttgactgtcagcaagactgaagatggcttttcctggacagctagaaaacaca aaatcttgtaggtcattgcacctatctcagccataggtgcagtttgcttctacatgatgctaaaggctgcgaatggga tcctgatggaactaaggactccaatgtcgaactcttctttgctgcattcctttttcttcacttacaagaaaggcctgaat ggaggacttttctgtaaccaggaacattttttaggggtcaaagtgctaataattaactcaaccaggtctactttttaatggc tttcataacactaactcataaggttaccgatcaatgcatttcatacggatatagacctagggctctggagggtgggg 634 221874 ctggcctacgtgttcaattttctatgaacaaaggctttagtccttgacccagggctaaagtggtctgtccaagctgttgtt _at tagagggagtatgataaaatgtttaaatctcatttggttaccttgagtcctggaacacgcagtaactgtcatgctat ggagtcntcatctgtatttggctgggaatacaaatgaagattgtggtgtattcaagcagtagggtttttggaaatcgaat cttttgtttttgttttagtgccaacaaaacttttttttgtctgactacattaaagataagactgactatatttatacaaca gaaactttgtaatagattttttcagctttgttttttttcatcagggctggttggatttccttttaccctgtaatccaa gcgttaatagtttgttagaagatgggttattgcatgtcactt 635 223969 gaagatcaaggatgttctcaacagtctagagtacagtccctctcctataagcaagaagctctcgtgtgctagtgtcaaaagccaa _s_at ggcagaccgtcctcctgccctgctgggatggctgtcactggctgtgcttgtggctatggctgtggttcgtgggatgttcagct ggaaaccacctgccactgccagtgcagtgtggtggactggaccactgcccgctgctgccacctgacctgacagggaggaggct gagaactcagttttgtgaccatgacagtaatgaaaccagggtcccaaccaagaaatctaactcaaacgtcccacttcat ttgttccattcctgattcttgggtaataaa 636 223970 ggagctcagagatctaagctgctttccatcttttctcccagccccaggacactgactctgtacaggatggggccgtcctcttg _at cctccttctcatcctaatcccccttctccagctgatcaacccggggagtactcagtgttccttagactccgttatggata agaagatcaaggatgactcaacagtctagagtacagtccctctcctataagcaa gaagctctcgtgtgctagtgtcaaaagccaaggcagaccgtcctcctgccctgctgggatggctgtcactggctgtgcttgtggct atggctgtggttcgtgggatgttcagctggaaaccacctgccactgccagtgcagtgtggtggactggaccactgcccgctgctg ccacctgacctgacagggaggaggctgagaactcagttttgtgaccatgacagtaatgaaaccagggtcccaaccaagaaatcta actcaaacgtcccact 637 224724 gcctgagaaagcaagcacgcactctcagtcaacatgacagattctggaggataaccagcaggagcagagataacttcaggaagtc _at catttttgcccctgcttttgctttggattatacctcaccagctgcacaaaatgcattttttcgtatcaaaaagtcaccactaacc ctcccccagaagctcacaaaggaaaacggagagagcgag cgagagagatttccttggaaatttctcccaagggcgaaagtcattggaatttttaaatcataggggaaaagcagtcctgttctaa atcctcttattcttttggtttgtcacaaagaaggaactaagaagcaggacagaggcaacgtggagaggctgaaaacagtgcagag acgtttgacaatgagtcagtagcacaaaagagatgacatttacctagcactataaaccctggttgcctctgaagaaactgccttc attgtatatatgtgactatttacatgtaatcaacatgggaacttttaggggaacctaataagaaatcccaattttcagga gtggtggtgtcaataaacgctctgtggccagtg 638 225664 ggaacccagagctgctgtgtatttcgagcgggcagtttatcttttgctatacttattttcaattcaattacaccacgattcaaat _at aattcccctcctaaaaccaaaaaggagggaaacgtcaactccattgcaattacttatcttcctcttctatctctgttatacgccg gggcatagaatgctcgtatacatctctttaacaaccacaaaccttaagccatgtagatgaagttagtgcatcaacgggatacagt tccatattgccttaaacctccttgttttagacacactaacatttataccaaattgcagattattctgcagagagggaattg catgtttgtgttgta 639 225681 aattaatattcatcgcacttcttctgtggaaggactttgtgaaggaattggtgctggattagtggatgttgctatctgggttgg _at cacttgttcagattacccaaaaggagatgcttctactggatggaattcagtttctcgcatcattattgaagaactaccaaaat aaatgctttaattttcatttgctacctctttttttattatgccttggaatggttcacttaa atgacattttaaataagtttatgtatacatctgaatgaaaagcaaagctaaatatgtttacagaccaaagtgtgatttcacact gtttttaaatctagcattattcattttgcttcaatcaaaagtggtttcaatattttttttagttggttagaatactttcttcat agtcacattctctcaacctataatttggaatattgttgtggtcttttgttttttctcttagtatagcatttttaaaaaaatat aaaagctaccaatctttgtacaatttg 640 225799 aaatgactggatggtcgctgctttttaagtttcaaattgacattccagacaagcggtgcctgagcccgtgcctgtcttcagatc _at ttcacagcacagttcctgggaaggtggagccaccagcctctccntgaataactgggagatgaaacaggaagctctatga cacacttgatcgaatatgacagacacngaaaatcacgactcanccccctccagcacctctacctgttgcccgccgatca cagccggaatgcagctgaaagattccctggggcctggttccaaccgcccactgtggactctgaggcctctgca tttgcgggtggtctgcctgtgatattttggtcatgggctggtctg 641 226237 gaagaggagcaacatctatgccaaatactgtgcattctacaatggtgctaatctcagacctaaatgatactccatttaatttaaa _at aaagagttttaaataattatctatgtgcctgtatttcccttttgagtgctgcacaacatgttaacatattagtgtaaaagcaga tgaaacaaccacgtgttctaaagtctagggattgtgctataatccctattt agttcaaaattaaccagaattcttccatgtgaaatggaccaaactcatattattgttatgtaaatacagagttttaatgcagta tgacatcccacaggggaaaagaatgtctgtagtgggtgactgttatcaaatattttatagaatacaatg aacggtgaacagactggtaacttgtttgagttcccatgacagatttgagacttg 642 226248 tgaaagtgggcatctctgcaggcacctgtactgccatcctgctcaccgtcttgacctgctacttttggaaaaagaatcaaaan _s_at ctagagtacangtactccangctggtgatgaatgctactctcaaggactgnnnnntnncngnngctgacagct gcgccatcatggnanncnnnnangnanagnnnnnnnncancnnnnnnc anntgcgccatcatggaaggcgaggatgtagaggacgacctcatctttaccagcaagaagtcactctttgggaagatcaaa tcatttacctccaagaggactcctgatggatttgactcagtgccgctgaagacatcctcaggaggcccagacatggacct gtgagaggcactgcctgcctcacctgcctcctcaccttgcatagcacctttgcaagcctgcggcgatttgggtgccagc atcctgcaacacccactgctggaaatctcttcattgtggccttatcagatgtttgaatttcagatctttttt tatagagtacccaaaccctcctttctgcttgcctcaaacctgccaaatatacccacac 643 226311 aaacgacgcaaatctctgagctggggaccacttggagaaccggcttagtaacagtcctgatcttcgcaagccagcttcttctgc _at atctgaggggctcctggcgcccagaggaggcagacagatgtcttctagctgagtttctaaccgcatgatgagactcagaccttc cgctgcactagaaaatctgcaacagtgtccctgagtcacttctccttagtgggcagactcgtgttagatttgtggaacccagc tctctgatttactccttttggaaaacccatggaatttcatgtataaggctttcatttgtattttaaggtttttctgtttg ttttgagtatatacatggtgctcaatagcaacatcttagcagatgaagcagtttatgattccactccctcctgtatgacag gtagccactatactgaatcaaggtgctgaactcaaatcacaaaattctggcttaccgatacaacaaccaatac 644 226777 tataaggtaactctttagtcctccatttagcacattaaatcctccaaagaataagtatcatgtgattattttagctttacaaaa _at aaaaagttgaatggcgttttattttcatggcctataagcaggtaccttagtagggcagatataggaaaaacaaattagagcaa aacaaatcctctacaaatccaaggcaggaaaagtggtggcagagtg actcattctcctgtccctcccatcaggtcaaatcaggaggctgcagtgaatgcctgttctttgaatgtgtagcagttgttncc tgtaactctttaaaacttggctataggctgtttagcacagtacagattaaagatacagttacgtaaacagcaaagtaat tttatagtgcttcatccatttatcatgctttggtttgctaattttttcacatacctttttctatcacagtctgttg cttttgtacacatttctcatattggggttcgaca 645 226930 ggtgccaggaaggtcacagatggacactggccattctggtcatctcagtctggaactcagtcccacttcttggcctggacaat _at gaacaggattcagttttgctgttaactttgcttctctacttttttttgtttgtttgtaatagcacatcccagagacatcag aaaccagcaactgattcagtgtgatttccagactttttaggcatgaaattcggacact tcagtatttccaggaatagcatatgcacgctgttcttgcttcatggaatgctacatgctttctgtttttctcattttggatt tctccaaaactaactgaatttaagcttcaggtccctttgtatgcagtagaaaggaattattaaaaacaccaccaaag aaaataaatatatcctacttgaaatttactctatggacttacccactgctagaataaatgtatcaaatcttattt gtaaattctcaattttgatatatatatgtatatatgcatatacatatccacacttgtctgcaag 646 227140 ttaccctctatttaaatgctttgaaaaacagtgcattgacaatgggttgatatttttctttaaaagaaaaatataattat _at gaaagccaagataatctgaagcctgattattttaaaactttttatgttctgtggttgatgttgtttgtttgtttgtt tctattttgttggttttttactttgttttttgttagttttgttttgttttgcatactacatgcagttctttaaccaatgt ctgtttggctaatgtaattaaagttgaaatttatatgagtgcatttcaactatgtcaatggtttcttaatatttattgt gtagaagtactggtaatttttttatttacaatatgtttaaagagataacagtttgatatgttttcatgtgtttatagc agaagttatttatttctatggcattccagcggatattttggtgtttgcgaggcatgcagtcaatattttgtacagtta gtggacagtattcagcaacgcctgatagcttctttggcctt 647 227566 ccacacaccaggcactaatcacctggtgaggatttggcatatccaccaaaaaatgcatccgatttaaccaacatctccaccagc _at gctacggactcctcccaattctgacatctcttgcagacaatactatgctctctacacactgtttagaaatggaaaggtgatc tgcactgtatcttgggtttgttggctatgcttcctttgatgacatatattatacagtatatatatacatatattttttttgtt agagttctagccattttatttctccgcagggtcctttctcagacattactgcatgctgtatatggcgttagctgtgtgttga tcttctaaaagatgatagagtttactggtaattgtgtaatcagctcctgcctttttatt 648 227676 caggaaactcttctctgacttggggagttcctacgcganacaactgggcttccgggacagctgggtcttcataggagccaaaga _at cctcaggggtaaaagcccctttgagcagttcttaaagaacagcccagacacaaacaaatacgagggatggccagagctgc tggagatggagggctgcatgcccccgaagccattttagggtg gctgtggctcttcctcagccaggggcctgaagaagctcctgcctgacttaggagtcagagcccggcaggggctgaggaggagg agcagggggtgctgcgtggaaggtgctgcaggtccttgcacgctgtgtcgcgcctctcctcctcggaaacagaaccctccc acagcacatcctacccggaagaccagcctcagagggtccttctggaaccagctgtctgtggagagaatggggtgctttcg tcagggactgctgacggctggtcctgaggaaggacaaactgcccagacttgagcc 649 227719 cacttgatagactgtaagcacctgcttaactttgtgtcccaaatatttagtgtgtatatatatatatatatanncncacacac _at acacatatatattcaacaaataaagcaaaatataacatgcatttcacattttgtctttccctgttacgattttaatagcagaa ctgtatgacaagtttaggtgatcctagcatatgttaaattcaaattaatgtaaaacagattaacaacaacaaagaaactgt ctatttgagtgaagtcatgctttctattataataacttggcttcggttatccatcaaatgcacacttatactgttatctg attg 650 229218 gccaaaaggcctggcttctgataggaaactggtaagaaactcttcatgaaaacacatcactaatattcgctattactctcctgg _at tctgaagtcagcttttctgaaccattaaggtatttcatcacaagttatattttataatatcagtttaagaggct tttattcatgtgaacaccagnnccctttcaggggcatggtctttttgaaaaaaaaaaaanaa aaaaannaacagttttagccacatatcagatatttctatatctaattatcctttatggctaacattctgcctccattgttaa ggtataattgttcctgaatttaaaggtggtttggcctctaatttaattctgattcagactctcctgtcaggactca agaaaatttaattaattaccaaggattaagtcttctggttaaggtttctgggaaaaaaaaatagcaaagat gttgatttcttggaatcctttacaggttcataacagaaaaatcttcattccctgtaggcatttaattaaacctagttga gaagtgtgtgggattcctcaattatgaacaaaacacgtatattggctttcttt 651 229802 gacatgattgtctataatctcgctagccttgtactgtgtgtgcatagcaattacagggaagtaatctagctcctgactattat _at gttgaactatgtcgctgctttttacaaacttgtcttgatccaaagcagtcacaatgataaccctgcatatctggg aatcataagtcaactatgtatctctgtgtgtgtatatatatgtatgtatgtatctattttcaaactgt gatttaatatttaaatattcctactgccatttttgtgactgaaaaactacacatgaggaaacgtcttagaatatccaataga ggaaaaataacacttgggcaatctgtcatgtttcacaacagttctcatttttctcatgatttgtgtagcgtgg aatgtgtttgctcaatgtgaagggttttcattgctcaatttctctgtgtaa 652 231766 ggttccggctaacacattttctaagtcgccagtgctgcttacagtttgaatacatgaaaatcctgtttctnagatgtttgcg _s_at cacgtgcttattaggaaatgagtctgtatggaaatctcaccacagataatggttaacgaaccgggtcgacatcacaaag gagggtggagactctttttactaacttgaatgagacaaaagcagtggtgtcagtttataatcctgatgcatttcagtaata atgtagaaaaacattattttaaaaaagttccaacacacagccatgaggagccnnnnnannantcagttttgaaagaggtg cataataaaactactaaccagaggagtctatgccatttt 653 231832 gagtttcaactttaaatgttcactatgtcatttagtgtccanctttacggataggttgactatctaaataggcatttttagt _at cattaaaaaaaantctagtcaccaggaggatccctataactcaaaataacttgtttgtaaaagaaaatttgtttactta cccattagtaagttcctgcatattcattataagatggcaaatcaaacttttctaggatgaagacagcttatttttaagt tgtatagtcttagttggtttagggtctcaattttaattaataaaatacttggtttttatttgcttgtccttttgaattcct gttttaataattttaaaatgagcacaaagaangttgaagttcagattaatctcttctgaa tgatgtttttttcctctgtgatgagttgtttctg 654 231879 tgctgtagtcactggtgttcctcacccaccagctgtaactcagtttgtgtgaggtacagccacagaagatgtcatgtactgta _at tattacctggtgatagttgcttttcaccccccgagttcagtttctaggagccaatgaaacttcccctcacctcctcatctt tccaagttgttctttgaattgaggagtttgaaggcataaacagttacttggggatttgcgaaaatcctacttagttac tgcgtttacagttctttggcccagtctctgacccttcccnagtatttgtgcnatgattg tgtttactgctggatttttgaaggttttttttttnnaagaaagtgccatttcattatttgatt 655 232176 gggatcactgggagaagccatggcattatcttcaggcaatttagtctgtcccaaataaaataaatccttgcatgtaaatcattca _at agggttatagtaatatttcatatactgaaaagtgtctcataggagtcctcttgcacatctaaaaaggctgaacatttaagtatcc cgaattttcttgaattgctttccctatagattaattacaattggatttcatc atttaaaaaccatacttgtatatgtagttataatatgtaaggaatacattgtttataaccagtatgtacttcaaaaatgtgtatt gtcaaacatacctaactttcttgcaataaatgcaaaagaaactggaacttgacaattataaatagtaatagt gaagaaaaaatagaaaggttgcaattatataggccatgggtggctcaaaactttgaa 656 232458 gattcctggattgatgtcttatctacaggcttctttttaaaaatnnnnnnngattggctgtgagtttaccaggattatagttga _at ggctaaaggacagctcctcaggaaagcccctgttctacatctacggtcacatgctggaccttgagttgtcactcagagaaaag agtgccatctaccgaaactccacagtttccattgtgaatggcttctttggt gcagagttccaaaaattatgtagcccagctctttaattttgtaacatctaatgatatcaccgccttgaagtgattaaagtaga ttgcttaaagaattaaagctttaaagatgaaagatgttattgcttgctggacatgaggaacagttgtaaagttt ccaggtctacaataactttctgganccctctcagtgaactgtttcttgta 657 232481 gaagtccatcctttggtccaaagcatctggaagaggaagaagagaggaatgagaaagaaggaagtgatgcaaaacatctccaa _s_at agaagtcttttggaacaggaaaatcattcaccactcacagggtcaaatatgaaatacaaaaccacgaaccaatcaacagaat ttttatccttccaagatgccagctcattgtacagaaacattttagaaaaagaaagggaacttcagcaactgggaatcacag aatacctaaggaaaaacattgctcagctccagcctgatatggaggcacattatcctggagcccacgaagagctgaagttaat ggaaacattaatgtactcacgtccaaggaaggtattagtggaacagacaaaaaatgagtattttgaacttaaagctaattta catgctgaacctgactatttagaagtcctggagcagcaaacatagatggagagtttgagggctttcgcagaaatgctgt gattctgttttaagtccataccttgtaaataagtgccttacgtgagtgtgtcatcaatcagaacctaagc 658 233555 gctgctcaagcgcctgcagaacaacgacacgtgcagcatgccaggcctcacgtgcttcacccacgacaaccagcactggca _s_at gacggcgcctttctggacactggggcctttctgtgcctgcaccagcgccaacaataacacgtactggtgcatgaggacca tcaatgagactcacaatttcctcttctgtgaatttgcaactggcttcctagagtactttgatctcaacacagaccc ctaccagctgatgaatgcagtgaacacactggacagggatgtcctcaaccagctacacgtacagctcatggagctg aggagctgcaagggttacaagcagtgtaacccccggactcgaaacatggacctgg 659 234994 acaatcggctaaccttgacatttctttttaccttcatatgccactatctcggtagttcaaaaaaatttagttcttgataaatt _at gccttgaagtttaccttgtgctggagagccttatgataactccaaagactttcttacggtataatacatgttg tttaggattgtgtttcttagtcactgaagataataaatattaaaatggatgttttcatcagaaaattttcat gttttcctttaaggtaacataattgtaagaattgtttaataaaatactcaggaaattctaaaggtttctccnaatacctaaac atttctgaacatcagtattgcagttgtggaagagcagaaggaggatacatttgtttgtgttgctccccaa aattccaccttgcatttgcatcacaaacttccctcaattgaggcagttttctttg 660 235976 cagtgctgctgtgaactaaagtatgtcatttatgctcaaagtttaattcttcttcttgggatattttaaaaatgctactgag _at attctgctgtaaatatgactagagaatatattgggtttgctttatttcataggcttaattctttgtaaatctgaatg accataatagaaatacatttcttgtggcaagtaattcacagttgtaaagtaaataggaaaaattatttt atttttattgatgtacattgatagatgccataaatcagtagcaaaaggcacttctaaaggtaagtggtttaagttgcctcaa nagagggacaatgtagctttattttacaagaaggcatagttagatttctatgaaatatttattctgtac agttttatatanttttggttcacaaaagtaattattcttgggtgcctttcaa 661 236894 aaagtatattgtgctagcttgtctaagaataaacttnnatactgttgggggagggctgcacctgtcaagataacctgtcaat _at gtagtaggaaaacaggaggggacagtaacagaaaagcacgggaaaagatggcaaggttagttaaaatagaaaagtgctcagt tcctcatacctgtaatcccagcagtttagggggccaaggaaggtgggtcacttgagcccaagagttcaaggccat cctgggcaatgtggcgaaagtgtctacaaaaaaatacaaaaagaggaagaaatgatatttcacaagtttgta tcatttgtcat 662 237521 cagtccaaaatccatagacacagacagtagaaaggtggttatncaagggnctggtaggagagggagttagtatttagtggta _x_at tagagttttagtgtttnccgggtaaaaatgttnctagagatctgttgcaaccatgtgaatatacttaacactacc gtactgtacactgaaaaaatggttaagaggataaatttaaatggttaagaggaaaaatggttaag aggataatgttgttttgttaccacagtagtaacttttaaaaaccctcatgtatgttcttt 663 37892_ caacccattttgtgccacatgcaagttttgaataaggatggtatagaaaacaacgctgcatatacaggtaccatttaggn at annancngatgcctttntgggggcagaatcacatggcaaaagctttgaaaatcataaagatataagttggtgtggct aagatggaaacagggctgattcttgattcccaattctcaactctccttttcctatttgaatttctttggtgctgtaga aaacaaaaaaagaaaaatatatattcataaaaaatatggtgctcattctcatccatccaggatgtactaaaacagtgtgt ttaataaattgtaattattttgtgtacagttctatactgttatctgtgtccatttccaaaacttgcacgtgtccctgaattcc

TABLE 7 MSP primers and PCR conditions Re-anneal Gene Probe set Gene Name Forward primer 5′-3′ Reverse primer 5′-3′ Temp CA4 206208_at Carbonic anhydrase IV TCGTTTTTCGCGTTTAGTTGTC GCGCACCGAAAAAACCG 61.0° C. (SEQ ID NO: 664) (SEQ ID NO: 665) CXCL12 209687_at Chemokine, CXC CGGTTACGGTTAGTATTCGGTTTC AAAATACGACGATAAAAAACG 64.0° C. Motif, Ligand 12 (SEQ ID NO: 666) CG (SEQ ID NO: 667) DF 205382_ complement factor D CGAGGGTTTTTTAGCGATTTGTC AAACGAACCGCTCCCCG 64.0° C. s_at (SEQ ID NO: 668) (SEQ ID NO: 669) MAMDC2 228885_at MAM domain-containing TTCGGCGTTTTCGTTTTTTAC CCCCTTAACAACATAATCGCG 60.0° C. protein 2 precurosr (SEQ ID NO: 670) (SEQ ID NO: 671) MT1M 217546_at Metallothionein-1M GATGGTGCGTTCGGTATTTATGT GCTTACACCCGCCCGACTA 62.0° C. (SEQ ID NO: 672) (SEQ ID NO: 673) CAGE Control unbiased GTTTTGTGATTGGTTAGGTTATT CCRTCACCTTCTACACCAAAA 61.0° C. amplification assay AAAGT AATA (SEQ ID NO: 674) (SEQ ID NO: 675)

TABLE 8 COBRA Primers and PCR conditions Re-anneal Temp, Gene Probe set Gene Name Forward primer 5′-3′ Reverse primer 5′-3′ Enzyme ADAMDECI 206134_at ADAM-like, decysin 1 TGTGGATTTATTTTTATAAG ATAACTCATTAAAAACTCAC 61.0° C. GATATTGAAT ATCTAAACACTA BstU I (SEQ ID NO: 676) (SEQ ID NO: 677) GPM6B 209170_s_ Neuronal membrane TTAAGAAAGAGAGTAAGGAG AAAATCCCAATTAAAAAACA 6O.0° C. at glycoprotein M6-b GAAGAGTT ACCA Hinf I (SEQ ID NO: 678) (SEQ ID NO: 679) P2RY14 206637_at Purinergic receptor CAAAATAATAAATCCCTCTA GGAGGAAAGGAATTAGTTTA 60.0° C. P2Y, G-protein coupled, CTACTATTATCAA GAAGTTAGTT Acl I 14 (SEQ ID NO: 680) (SEQ ID NO: 681)

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1.-35. (canceled)
 36. A method comprising (i) amplifying DNA from a blood sample of a human to obtain amplified DNA comprising the promoter region of the SDC2 gene, wherein said amplifying comprises bisulfite conversion of the blood DNA; (ii) detecting the level of methylation in said promoter region of the SDC2 gene in the bisulphite-converted DNA.
 37. The method according to claim 36 wherein said human is suffering from an adenoma or an adenocarcinoma.
 38. The method according to claim 36 wherein said human is suffering from a colorectal neoplasm.
 39. The method of claim 36 further comprising (iii) comparing the level of methylation detected in (ii) to the level of methylation in a control DNA from a non-neoplastic human; and (iv) identifying a higher level of methylation in the DNA from the blood sample in (iii) as compared to the level of methylation in the control DNA in (iii); wherein the higher level of methylation in the DNA from the blood sample relative to the level of methylation of the control DNA is indicative of a large intestine neoplasm or a predisposition to the onset of a large intestine neoplasm.
 40. The method of claim 39, wherein said amplifying comprises amplifying CpG sites in said promoter region of the SDC2 gene using primers that hybridize to methylated CpG nucleotides positions in bisulphite-treated genomic DNA.
 41. The method according to claim 39 wherein said large intestine neoplasm is an adenoma or an adenocarcinoma.
 42. The method according to claim 40 wherein said large intestine neoplasm is an adenoma or an adenocarcinoma. 